The document describes a company that offers modeling and simulation solutions, including expertise in developing military simulators. Specifically, it summarizes their development of a Mi-8/Mi-17 helicopter full mission simulator. Key features include advanced flight simulation, modeling of flight dynamics and environmental conditions, geospatial mapping, networking capabilities, instructor operating systems, hardware integration, and recording/review functionality. The company has subject matter experts and engineers to develop accurate simulations of complex systems.
This document is a resume for Samir Hassan Mohammed Hassan. It summarizes his objective of seeking a challenging career to enhance his technical and analytical skills. It details his education in Geography from Beni Suef University in 2005. It describes his technical experience as a software tester and system analyst at Scada Innovations since 2011, where he performs various testing functions. It also lists his previous role at Java Innovations from 2007 to 2011 as a software system analyst and tester.
Prajakta Chavan is a software engineer seeking a challenging position in the software industry. She has a Bachelor's degree in Commerce and technical skills in C, C++, C#, Java, SQL, Selenium, and manual and automation testing. She has over 2 years of experience as a system associate and senior software engineer working on projects for clients like Farmers Insurance Group, Ernst & Young, Sony, and NRMA. Her responsibilities included writing test scenarios and scripts, executing functional tests, logging defects, and mentoring other consultants.
The .NET Framework is a software framework developed by Microsoft that allows programs written in multiple languages to run on Windows. It includes a large library of common programming tasks and provides language interoperability. Programs using the .NET Framework execute within the Common Language Runtime environment, which manages memory and provides other core services. The framework supports developing console applications, Windows GUI apps, web apps, and more. It also enables platform independence, language independence, and object-oriented programming.
- Insys Network Labs provides IT services and training to enterprises and individuals, including software development, web applications, and client-server applications.
- The company offers virtual modeling and shopping modules that allow users to personalize avatars, design and purchase customized clothing, and browse retail showrooms.
- Insys Network Labs also provides training on software technologies like Java, .NET, C#, and more to help students and professionals develop skills for the job market.
This document discusses window phone app development services from an ISO 9001:2014 certified company. It outlines the technologies used in developing window phone apps such as .NET Compact, SS3, and C#. The benefits of developing window phone apps are also highlighted, including a huge potential audience with the new Windows 10 OS integration and an open source, developer friendly platform. The company has experienced professionals for developing apps for window phone 7 and 8 with a proven track record.
N.S.Sri Nivashini is a Test Engineer with 2 years of experience in manual testing, performance testing using JMeter, and automation testing using Selenium. She has worked on several projects in the healthcare and automotive industries, performing tasks like requirements analysis, test case development, defect tracking, and test automation. She has expertise in functional and UI testing on web and mobile applications. Nivashini has a B.E. in Electronics and Communication Engineering and seeks to further enhance her skills in testing methodologies, tools and technologies.
The document provides a summary of a software tester's qualifications and experience. It includes over 4 years of experience in software testing and performance testing. Specific experience includes load testing web applications using tools like LoadRunner and JMeter. The tester has experience in various domains like retail and travel. They have worked on projects for companies testing applications from the US, UK and India. The tester also provides their educational background and technical skills.
Dinesh M - Senior QA - IT Resume - 4.8yr ExpDinesh M
Dinesh is a QA Engineer with over 10 years of experience in manual and automation testing. He has extensive skills in test planning, execution, defect tracking, and report generation. His career includes roles at Photon Interactive, Cognizant, and Accenture where he tested various web and mobile applications. He is proficient in Selenium, Appium, SQL, C/C++, and Microsoft Office. Dinesh holds an MBA in Finance and a BSc in Computer Technology.
This document is a resume for Samir Hassan Mohammed Hassan. It summarizes his objective of seeking a challenging career to enhance his technical and analytical skills. It details his education in Geography from Beni Suef University in 2005. It describes his technical experience as a software tester and system analyst at Scada Innovations since 2011, where he performs various testing functions. It also lists his previous role at Java Innovations from 2007 to 2011 as a software system analyst and tester.
Prajakta Chavan is a software engineer seeking a challenging position in the software industry. She has a Bachelor's degree in Commerce and technical skills in C, C++, C#, Java, SQL, Selenium, and manual and automation testing. She has over 2 years of experience as a system associate and senior software engineer working on projects for clients like Farmers Insurance Group, Ernst & Young, Sony, and NRMA. Her responsibilities included writing test scenarios and scripts, executing functional tests, logging defects, and mentoring other consultants.
The .NET Framework is a software framework developed by Microsoft that allows programs written in multiple languages to run on Windows. It includes a large library of common programming tasks and provides language interoperability. Programs using the .NET Framework execute within the Common Language Runtime environment, which manages memory and provides other core services. The framework supports developing console applications, Windows GUI apps, web apps, and more. It also enables platform independence, language independence, and object-oriented programming.
- Insys Network Labs provides IT services and training to enterprises and individuals, including software development, web applications, and client-server applications.
- The company offers virtual modeling and shopping modules that allow users to personalize avatars, design and purchase customized clothing, and browse retail showrooms.
- Insys Network Labs also provides training on software technologies like Java, .NET, C#, and more to help students and professionals develop skills for the job market.
This document discusses window phone app development services from an ISO 9001:2014 certified company. It outlines the technologies used in developing window phone apps such as .NET Compact, SS3, and C#. The benefits of developing window phone apps are also highlighted, including a huge potential audience with the new Windows 10 OS integration and an open source, developer friendly platform. The company has experienced professionals for developing apps for window phone 7 and 8 with a proven track record.
N.S.Sri Nivashini is a Test Engineer with 2 years of experience in manual testing, performance testing using JMeter, and automation testing using Selenium. She has worked on several projects in the healthcare and automotive industries, performing tasks like requirements analysis, test case development, defect tracking, and test automation. She has expertise in functional and UI testing on web and mobile applications. Nivashini has a B.E. in Electronics and Communication Engineering and seeks to further enhance her skills in testing methodologies, tools and technologies.
The document provides a summary of a software tester's qualifications and experience. It includes over 4 years of experience in software testing and performance testing. Specific experience includes load testing web applications using tools like LoadRunner and JMeter. The tester has experience in various domains like retail and travel. They have worked on projects for companies testing applications from the US, UK and India. The tester also provides their educational background and technical skills.
Dinesh M - Senior QA - IT Resume - 4.8yr ExpDinesh M
Dinesh is a QA Engineer with over 10 years of experience in manual and automation testing. He has extensive skills in test planning, execution, defect tracking, and report generation. His career includes roles at Photon Interactive, Cognizant, and Accenture where he tested various web and mobile applications. He is proficient in Selenium, Appium, SQL, C/C++, and Microsoft Office. Dinesh holds an MBA in Finance and a BSc in Computer Technology.
Narayan Nale is a Software Test Engineer from India with over 1 year of experience testing web and client/server applications. He has expertise in test case preparation, black box testing, integration testing, and functional testing using tools like Selenium. Some of the projects he has tested include travel booking websites, hotel CRMs, and online bus ticket booking. He is proficient in technologies like Java, JSP, HTML, and Oracle and is currently working as a Test Engineer at Aeon Logiciel testing projects like an e-learning platform and sports marketplace.
This document provides a professional summary and resume for Muhammad Adeel. It outlines his education and qualifications which include a BS in Computer Science. It also details his work experience in software quality assurance and testing roles at several companies. Finally, it lists some online projects he has worked on and skills that include programming, testing methodologies, automation tools, and web technologies.
The document describes an app called Scout Party that two high school students, Sophia and Amelia, are developing to help streamline the process of scoring matches for First Tech Challenge (FTC) robotics competitions. The app aims to solve problems with the current paper-based scoring system like a lack of resources, time constraints when comparing scores, and risk of losing paper score sheets. It will allow FTC team members and mentors to easily record scores and comments during matches and view past match results. The students created mockups and wireframes and have gotten feedback from other robotics students to help design an intuitive user interface for the scoring app.
MCA GTU Student can refer GTU Project guidelines, This Project guide lines will helpful for Live GTU Projects as well as for project creation. By TOPS Technologies. http://www.tops-int.com
This document is a resume for Vinodkumar Ivani. It summarizes his professional experience as an embedded testing engineer and software verification engineer working on projects in automotive, locomotive and aerospace domains. It lists his technical skills in programming languages like C and Embedded C, testing tools, and change management tools. It also provides details of some of his key projects at HCL Technologies including work on an infotainment system and flight management system software.
1. Raveendran R is seeking a job as an engineer with 4 years and 5 months of experience in modelling, code generation, and testing of electronic systems.
2. He has a Master's degree in Avionics Engineering and is skilled in requirements analysis, UML modelling, Simulink modelling, code generation, and testing for automotive and avionics projects.
3. His experience includes working with Bosch Engineering and TechMahindra on projects for Volkswagen, Porsche, Bugatti, and TRW developing power steering and braking systems using tools like Targetlink, Matlab, and Dspace.
This document contains a resume for Rich Gupta seeking a position as a Software Test Professional. It summarizes his 3 years of experience in software testing, including manual and automation testing. It lists his technical skills like Selenium, JMeter, Perfecto, and ALM. It provides details on two projects he worked on, one for TD Ameritrade testing their mobile apps, and another testing SAP PR/PO. It includes his academic credentials and personal details.
This document contains the resume of Sayali Deshmukh summarizing her work experience as a Performance Engineer/Tester. She has over 2 years of experience working with companies like Capgemini India Pvt Ltd and Discover Financial Services as a Performance Engineer using tools like Load Runner, Little Eye, and Oracle. Her roles included defining test cases, developing test plans, conducting load testing, identifying performance issues, and providing training. She has expertise in languages like Java, C/C++, and tools like Load Runner, Oracle TOAD, and SQL.
We are company with 5+ years of expertise in the field of software development for computer appliance simulators.
Our mission is to be the company that produces high quality Modelling & Simulation software solutions that maximally satisfy customer’s needs.
Having a high qualified team of system architects, developers, analysts, engineers and subject-matter experts we successfully develop Modeling & Simulation software with necessary level of quality.
As we have a development center in Ukraine, we can produce high-fidelity software for low prices, as the rates in Ukraine are significantly lower than in North America or Western Europe, but the professional level is high.
Acollada Software Development - helping you create innovative, cost effective...TotalSoft
Acollada is the Software Development Division of TotalSoft - one of the major software exporters in Romania.
Thanks to creativity and initiative, TotalSoft is one of the most active software exporters in Romania, who evolved from outsourcing projects to complex services and
implementations of outstanding solutions in 28 countries, including US, United Kingdom, Netherlands, Germany, France, Austria or Switzerland.
Spaculus Software Outsourcing is an Indian company that provides custom software development and IT services. It specializes in application development, website development, and software testing. The company has development centers in India that allow it to offer lower costs and faster delivery while maintaining high quality. It has expertise in technologies like .NET, Java, and open source solutions. Spaculus works on projects across various industries and engages clients through fixed price, full-time staffing, or time and materials models depending on their needs.
The document discusses different types of software development careers, including desktop, web, and mobile application development. It outlines various roles such as software engineer, systems analyst, project manager, and database administrator. It also discusses important skills like problem solving and communication. Finally, it provides details on certification paths for Oracle, Microsoft, and Java development.
Since 1997, Applied Systems is the leading in developing custom industrial software. We create a wide range of software from PLC programming and IoT solutions to high-level automation systems for machinery-intensive industries. We deliver our knowledge & expertise in the integration of multilevel and multicomponent industrial systems and tend to build long-term partnership with our customers.
Thanks to interacting with people from different cultures, with other legal systems and time zones, we have gained huge experience working in international teams, established our relationships and learnt how to collaborate quickly and efficiently.
The Idea Team Company is created by experienced professionals in design and development of software systems.
The Idea Team specializes in the development of software systems according to the individual client's requirements. The high professional level of our staff and extensive experience gained in solving practical problems in various areas allows developing and promoting effective IT solutions for all areas of business.
This document is a project report submitted for a Bachelor of Technology degree in Computer Science and Engineering. It summarizes a hotel management system developed using C# and SQL Server. The report includes sections on the vision for the project, architectural design, component design, testing plan, evaluation of test results, and a user manual. The system allows customers to book rooms and view hotel information while the administrator can add, modify, or delete hotel data and customer information stored in database tables.
Ads n url development process document (1)Saumya Sharma
This document outlines AdsnUrl Ltd.'s agile development process for web and mobile app projects. It includes 8 phases: 1) Requirement gathering, 2) Technical specification and proposal finalization, 3) Project kick-off and team meeting, 4) Wireframing, UX and UI design, 5) App development coding, 6) Testing and quality assurance, 7) Deployment, and 8) Maintenance. It also provides details on AdsnUrl's team structure and roles, as well as the technologies and tools used in their development stack.
FZ Software House is submitting a business plan to develop and sell software products. Their flagship product is an automatic face recognition system that can detect faces, match them to a database, and automatically log attendance. The management team has experience in software development. They estimate startup costs of 51.45 million rupees and a sales forecast projecting total sales of 1.125 million rupees from January to June and 1.45 million rupees from July to December, as they expand their product line and customer base. They aim to compete on quality and affordable pricing.
Annotated Bibliography On Unreliable SoftwareMary Brown
R and Python are two of the most popular open-source tools for machine learning. R was developed as both a statistical programming language and software environment, with a focus on statistical computations and data visualization. Python is a general-purpose programming language that is also widely used for machine learning due to its flexibility. Both languages have large user communities and are free, open-source, and cross-platform. While R may be better suited for statistical applications, Python can be used for a wider range of programming tasks beyond machine learning and statistics. The choice depends on the user's individual needs and experience level with each language.
This job description is for an Application Engineer position in Capital Markets IT Production. The role involves managing the production environment for electronic market systems used by traders and back office staff around the world. Responsibilities include defining technical architecture, implementing new technologies, and delivering stable and performing applications. The ideal candidate has 12+ years of relevant experience, expertise in areas like Windows, Unix, databases, middleware, and programming languages. They will work on projects to setup and fine-tune in-house and third party applications, assist with validation, and monitor applications in production.
Protech (Computer Vision, Machine Learning, Deep Learning, Image Processing, ...Protech
This document provides an overview of Protech, a company specialized in computer vision, machine learning, and software development. Protech has over 10 years of experience in research and development. They offer outsourcing services including full platform development. Their expertise includes computer vision, machine learning algorithms, and software development for desktop, mobile, web and cloud-based solutions. Protech works with various companies and universities on projects and supports startups through technological partnerships.
Narayan Nale is a Software Test Engineer from India with over 1 year of experience testing web and client/server applications. He has expertise in test case preparation, black box testing, integration testing, and functional testing using tools like Selenium. Some of the projects he has tested include travel booking websites, hotel CRMs, and online bus ticket booking. He is proficient in technologies like Java, JSP, HTML, and Oracle and is currently working as a Test Engineer at Aeon Logiciel testing projects like an e-learning platform and sports marketplace.
This document provides a professional summary and resume for Muhammad Adeel. It outlines his education and qualifications which include a BS in Computer Science. It also details his work experience in software quality assurance and testing roles at several companies. Finally, it lists some online projects he has worked on and skills that include programming, testing methodologies, automation tools, and web technologies.
The document describes an app called Scout Party that two high school students, Sophia and Amelia, are developing to help streamline the process of scoring matches for First Tech Challenge (FTC) robotics competitions. The app aims to solve problems with the current paper-based scoring system like a lack of resources, time constraints when comparing scores, and risk of losing paper score sheets. It will allow FTC team members and mentors to easily record scores and comments during matches and view past match results. The students created mockups and wireframes and have gotten feedback from other robotics students to help design an intuitive user interface for the scoring app.
MCA GTU Student can refer GTU Project guidelines, This Project guide lines will helpful for Live GTU Projects as well as for project creation. By TOPS Technologies. http://www.tops-int.com
This document is a resume for Vinodkumar Ivani. It summarizes his professional experience as an embedded testing engineer and software verification engineer working on projects in automotive, locomotive and aerospace domains. It lists his technical skills in programming languages like C and Embedded C, testing tools, and change management tools. It also provides details of some of his key projects at HCL Technologies including work on an infotainment system and flight management system software.
1. Raveendran R is seeking a job as an engineer with 4 years and 5 months of experience in modelling, code generation, and testing of electronic systems.
2. He has a Master's degree in Avionics Engineering and is skilled in requirements analysis, UML modelling, Simulink modelling, code generation, and testing for automotive and avionics projects.
3. His experience includes working with Bosch Engineering and TechMahindra on projects for Volkswagen, Porsche, Bugatti, and TRW developing power steering and braking systems using tools like Targetlink, Matlab, and Dspace.
This document contains a resume for Rich Gupta seeking a position as a Software Test Professional. It summarizes his 3 years of experience in software testing, including manual and automation testing. It lists his technical skills like Selenium, JMeter, Perfecto, and ALM. It provides details on two projects he worked on, one for TD Ameritrade testing their mobile apps, and another testing SAP PR/PO. It includes his academic credentials and personal details.
This document contains the resume of Sayali Deshmukh summarizing her work experience as a Performance Engineer/Tester. She has over 2 years of experience working with companies like Capgemini India Pvt Ltd and Discover Financial Services as a Performance Engineer using tools like Load Runner, Little Eye, and Oracle. Her roles included defining test cases, developing test plans, conducting load testing, identifying performance issues, and providing training. She has expertise in languages like Java, C/C++, and tools like Load Runner, Oracle TOAD, and SQL.
We are company with 5+ years of expertise in the field of software development for computer appliance simulators.
Our mission is to be the company that produces high quality Modelling & Simulation software solutions that maximally satisfy customer’s needs.
Having a high qualified team of system architects, developers, analysts, engineers and subject-matter experts we successfully develop Modeling & Simulation software with necessary level of quality.
As we have a development center in Ukraine, we can produce high-fidelity software for low prices, as the rates in Ukraine are significantly lower than in North America or Western Europe, but the professional level is high.
Acollada Software Development - helping you create innovative, cost effective...TotalSoft
Acollada is the Software Development Division of TotalSoft - one of the major software exporters in Romania.
Thanks to creativity and initiative, TotalSoft is one of the most active software exporters in Romania, who evolved from outsourcing projects to complex services and
implementations of outstanding solutions in 28 countries, including US, United Kingdom, Netherlands, Germany, France, Austria or Switzerland.
Spaculus Software Outsourcing is an Indian company that provides custom software development and IT services. It specializes in application development, website development, and software testing. The company has development centers in India that allow it to offer lower costs and faster delivery while maintaining high quality. It has expertise in technologies like .NET, Java, and open source solutions. Spaculus works on projects across various industries and engages clients through fixed price, full-time staffing, or time and materials models depending on their needs.
The document discusses different types of software development careers, including desktop, web, and mobile application development. It outlines various roles such as software engineer, systems analyst, project manager, and database administrator. It also discusses important skills like problem solving and communication. Finally, it provides details on certification paths for Oracle, Microsoft, and Java development.
Since 1997, Applied Systems is the leading in developing custom industrial software. We create a wide range of software from PLC programming and IoT solutions to high-level automation systems for machinery-intensive industries. We deliver our knowledge & expertise in the integration of multilevel and multicomponent industrial systems and tend to build long-term partnership with our customers.
Thanks to interacting with people from different cultures, with other legal systems and time zones, we have gained huge experience working in international teams, established our relationships and learnt how to collaborate quickly and efficiently.
The Idea Team Company is created by experienced professionals in design and development of software systems.
The Idea Team specializes in the development of software systems according to the individual client's requirements. The high professional level of our staff and extensive experience gained in solving practical problems in various areas allows developing and promoting effective IT solutions for all areas of business.
This document is a project report submitted for a Bachelor of Technology degree in Computer Science and Engineering. It summarizes a hotel management system developed using C# and SQL Server. The report includes sections on the vision for the project, architectural design, component design, testing plan, evaluation of test results, and a user manual. The system allows customers to book rooms and view hotel information while the administrator can add, modify, or delete hotel data and customer information stored in database tables.
Ads n url development process document (1)Saumya Sharma
This document outlines AdsnUrl Ltd.'s agile development process for web and mobile app projects. It includes 8 phases: 1) Requirement gathering, 2) Technical specification and proposal finalization, 3) Project kick-off and team meeting, 4) Wireframing, UX and UI design, 5) App development coding, 6) Testing and quality assurance, 7) Deployment, and 8) Maintenance. It also provides details on AdsnUrl's team structure and roles, as well as the technologies and tools used in their development stack.
FZ Software House is submitting a business plan to develop and sell software products. Their flagship product is an automatic face recognition system that can detect faces, match them to a database, and automatically log attendance. The management team has experience in software development. They estimate startup costs of 51.45 million rupees and a sales forecast projecting total sales of 1.125 million rupees from January to June and 1.45 million rupees from July to December, as they expand their product line and customer base. They aim to compete on quality and affordable pricing.
Annotated Bibliography On Unreliable SoftwareMary Brown
R and Python are two of the most popular open-source tools for machine learning. R was developed as both a statistical programming language and software environment, with a focus on statistical computations and data visualization. Python is a general-purpose programming language that is also widely used for machine learning due to its flexibility. Both languages have large user communities and are free, open-source, and cross-platform. While R may be better suited for statistical applications, Python can be used for a wider range of programming tasks beyond machine learning and statistics. The choice depends on the user's individual needs and experience level with each language.
This job description is for an Application Engineer position in Capital Markets IT Production. The role involves managing the production environment for electronic market systems used by traders and back office staff around the world. Responsibilities include defining technical architecture, implementing new technologies, and delivering stable and performing applications. The ideal candidate has 12+ years of relevant experience, expertise in areas like Windows, Unix, databases, middleware, and programming languages. They will work on projects to setup and fine-tune in-house and third party applications, assist with validation, and monitor applications in production.
Protech (Computer Vision, Machine Learning, Deep Learning, Image Processing, ...Protech
This document provides an overview of Protech, a company specialized in computer vision, machine learning, and software development. Protech has over 10 years of experience in research and development. They offer outsourcing services including full platform development. Their expertise includes computer vision, machine learning algorithms, and software development for desktop, mobile, web and cloud-based solutions. Protech works with various companies and universities on projects and supports startups through technological partnerships.
PixelCrayons: India’s Top Software Product Development & Engineering CompanyPixel Crayons
Get SaaS-based software product development services from initial strategy & planning to final deployment and after delivery support. We turn your software product idea into reality by putting custom skill sets in place.
PixelCrayons has an expert software product development team who is well-versed in building outstanding and advanced Saas products for clients from different domains.
Being a trusted SaaS product development company in India, we cover various software product engineering services from consulting to development, testing, and DevOps.
#saas #softwareproduct #softwareproductdevelopment
https://bit.ly/3lbEp7t
PUNE'S NO.1 EMBEDDED SYSTEM COURSE IN PUNEmyinternshipin
he embedded system course in our institute is a blend of software and hardware which when combined make sure the proper functioning of an embedded system that ranges from the small portable devices like digital watches & MP3 players to some of the large stationary installations like traffic lights, factory controllers to some of the very large & complex systems like hybrid vehicles MRI, aerospace applications. The embedded system is actually a computer system with an integrated function inside a large mechanical or electrical system usually with real-time computing restrictions.
Company Overview.
ESTECO is a pioneer in numerical optimization solutions, specialized in the research and development of engineering software for all stages of the simulation-driven design process.
SGS Technologie is a Software Development and IT Staffing company based in Jacksonville, Florida. We are dedicated to exceeding our employees’ and customers’ expectations. SGS is a leader in providing innovative end-to-end application solutions for commercial and government sectors. Our goal is to understand business objectives of clients and provide relevant solutions.
Qulix is a global provider of software development, testing, and IT consulting services. It has over 500 customers from 20+ countries, completes over 150 projects per year, and acquires 50+ new contracts per year. Qulix's main areas of expertise include custom software development, quality assurance testing, mobile app development, and UI/UX design. It provides solutions for banking, document management, and e-trading.
The embedded market is currently experiencing a number of disruptive forces. It is moving into a world of connectivity and inter connectivity, where the information and the data produced by embedded systems are essential. In parallel, and as a result of the consumerization of the industry, user expectations are increasing in terms of ergonomics, user experience and performance. This complexity significantly impacts the way embedded systems and connected devices are designed and developed, and moves the primary success factor from a main dependency on technical expertise to the optimization of the system integration. This implies the need of a strong know how about architecture design, hardware and software compatibility, interaction testing, IP integration, and a deep multi OS and multi technologies expertise. This creates the need for a new kind a player, the system software integrator.
This document provides an overview of key concepts from the textbook "Software Engineering: A Practitioner's Approach" by Roger S. Pressman. It discusses software's dual role as both a product that transforms information and a vehicle for delivering computing potential. It also covers the differences between software and hardware, the evolution of software engineering as a discipline, common software engineering phases like definition, development and support, myths that can affect managers, customers and practitioners, and more. The document presents high-level information on fundamental software engineering topics in a structured manner.
The Microsoft 365 Migration Tutorial For Beginner.pptxoperationspcvita
This presentation will help you understand the power of Microsoft 365. However, we have mentioned every productivity app included in Office 365. Additionally, we have suggested the migration situation related to Office 365 and how we can help you.
You can also read: https://www.systoolsgroup.com/updates/office-365-tenant-to-tenant-migration-step-by-step-complete-guide/
[OReilly Superstream] Occupy the Space: A grassroots guide to engineering (an...Jason Yip
The typical problem in product engineering is not bad strategy, so much as “no strategy”. This leads to confusion, lack of motivation, and incoherent action. The next time you look for a strategy and find an empty space, instead of waiting for it to be filled, I will show you how to fill it in yourself. If you’re wrong, it forces a correction. If you’re right, it helps create focus. I’ll share how I’ve approached this in the past, both what works and lessons for what didn’t work so well.
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
Connector Corner: Seamlessly power UiPath Apps, GenAI with prebuilt connectorsDianaGray10
Join us to learn how UiPath Apps can directly and easily interact with prebuilt connectors via Integration Service--including Salesforce, ServiceNow, Open GenAI, and more.
The best part is you can achieve this without building a custom workflow! Say goodbye to the hassle of using separate automations to call APIs. By seamlessly integrating within App Studio, you can now easily streamline your workflow, while gaining direct access to our Connector Catalog of popular applications.
We’ll discuss and demo the benefits of UiPath Apps and connectors including:
Creating a compelling user experience for any software, without the limitations of APIs.
Accelerating the app creation process, saving time and effort
Enjoying high-performance CRUD (create, read, update, delete) operations, for
seamless data management.
Speakers:
Russell Alfeche, Technology Leader, RPA at qBotic and UiPath MVP
Charlie Greenberg, host
Introduction of Cybersecurity with OSS at Code Europe 2024Hiroshi SHIBATA
I develop the Ruby programming language, RubyGems, and Bundler, which are package managers for Ruby. Today, I will introduce how to enhance the security of your application using open-source software (OSS) examples from Ruby and RubyGems.
The first topic is CVE (Common Vulnerabilities and Exposures). I have published CVEs many times. But what exactly is a CVE? I'll provide a basic understanding of CVEs and explain how to detect and handle vulnerabilities in OSS.
Next, let's discuss package managers. Package managers play a critical role in the OSS ecosystem. I'll explain how to manage library dependencies in your application.
I'll share insights into how the Ruby and RubyGems core team works to keep our ecosystem safe. By the end of this talk, you'll have a better understanding of how to safeguard your code.
How information systems are built or acquired puts information, which is what they should be about, in a secondary place. Our language adapted accordingly, and we no longer talk about information systems but applications. Applications evolved in a way to break data into diverse fragments, tightly coupled with applications and expensive to integrate. The result is technical debt, which is re-paid by taking even bigger "loans", resulting in an ever-increasing technical debt. Software engineering and procurement practices work in sync with market forces to maintain this trend. This talk demonstrates how natural this situation is. The question is: can something be done to reverse the trend?
"Frontline Battles with DDoS: Best practices and Lessons Learned", Igor IvaniukFwdays
At this talk we will discuss DDoS protection tools and best practices, discuss network architectures and what AWS has to offer. Also, we will look into one of the largest DDoS attacks on Ukrainian infrastructure that happened in February 2022. We'll see, what techniques helped to keep the web resources available for Ukrainians and how AWS improved DDoS protection for all customers based on Ukraine experience
Main news related to the CCS TSI 2023 (2023/1695)Jakub Marek
An English 🇬🇧 translation of a presentation to the speech I gave about the main changes brought by CCS TSI 2023 at the biggest Czech conference on Communications and signalling systems on Railways, which was held in Clarion Hotel Olomouc from 7th to 9th November 2023 (konferenceszt.cz). Attended by around 500 participants and 200 on-line followers.
The original Czech 🇨🇿 version of the presentation can be found here: https://www.slideshare.net/slideshow/hlavni-novinky-souvisejici-s-ccs-tsi-2023-2023-1695/269688092 .
The videorecording (in Czech) from the presentation is available here: https://youtu.be/WzjJWm4IyPk?si=SImb06tuXGb30BEH .
Programming Foundation Models with DSPy - Meetup SlidesZilliz
Prompting language models is hard, while programming language models is easy. In this talk, I will discuss the state-of-the-art framework DSPy for programming foundation models with its powerful optimizers and runtime constraint system.
Fueling AI with Great Data with Airbyte WebinarZilliz
This talk will focus on how to collect data from a variety of sources, leveraging this data for RAG and other GenAI use cases, and finally charting your course to productionalization.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/temporal-event-neural-networks-a-more-efficient-alternative-to-the-transformer-a-presentation-from-brainchip/
Chris Jones, Director of Product Management at BrainChip , presents the “Temporal Event Neural Networks: A More Efficient Alternative to the Transformer” tutorial at the May 2024 Embedded Vision Summit.
The expansion of AI services necessitates enhanced computational capabilities on edge devices. Temporal Event Neural Networks (TENNs), developed by BrainChip, represent a novel and highly efficient state-space network. TENNs demonstrate exceptional proficiency in handling multi-dimensional streaming data, facilitating advancements in object detection, action recognition, speech enhancement and language model/sequence generation. Through the utilization of polynomial-based continuous convolutions, TENNs streamline models, expedite training processes and significantly diminish memory requirements, achieving notable reductions of up to 50x in parameters and 5,000x in energy consumption compared to prevailing methodologies like transformers.
Integration with BrainChip’s Akida neuromorphic hardware IP further enhances TENNs’ capabilities, enabling the realization of highly capable, portable and passively cooled edge devices. This presentation delves into the technical innovations underlying TENNs, presents real-world benchmarks, and elucidates how this cutting-edge approach is positioned to revolutionize edge AI across diverse applications.
Northern Engraving | Nameplate Manufacturing Process - 2024Northern Engraving
Manufacturing custom quality metal nameplates and badges involves several standard operations. Processes include sheet prep, lithography, screening, coating, punch press and inspection. All decoration is completed in the flat sheet with adhesive and tooling operations following. The possibilities for creating unique durable nameplates are endless. How will you create your brand identity? We can help!
2. OUR OFFER
We are open for partnership with companies that produce modelling & simulation (M&S) solutions.
In this case we are glad to propose you to subcontract your projects or a part of them to us. You can leverage our
experience and expertise to develop M&S solutions successfully that meets international standards as well as customers’ needs and
requirements.
Despite of our expertise in producing military simulators, our company can consider offers for producing other types of Simulation &
Modelling software for other industrial branches. So, we are open for any propositions and offers that are related to applied software
development.
We are also ready to communicate about investments into our company.
Working with us has the following advantages
Rates
Experience and Expertise
Our rates are much lower than in North America
or Western Europe. That’s why work with us is
economically effective for you.
You do not have to hire common programmers and
engineers and train them in the military and simulators
knowledge domain. We have 5+ years of expertise in
military simulators software domain and can solve your
tasks with minimal efforts and man-days. We have
programmers, electrotechnical engineers and subject
matter experts. Working with us you will get not only
programmers. You will get our experience and expertise.
Military domain professionals
Ukraine has lots of highly skilled technical
specialists: programmers, engineers, subject
matter experts in the field of aviation and army.
This is a result of our history: Ukraine was a part
of the USSR and the second USSR republic by
army power. The USSR had the development of
a powerful army as one of the priority tasks,
that’s why education in the USSR was military
oriented. As a result there are many experts in
the military sphere that work in Ukraine.
Besides, there were a lot of technical universities in the Ukrainian Republic of the USSR, and
they still train a lot of good technicians. Furthermore, this company has been founded by two
Masters of Science graduating from System
Design Department of National Technical
University of Ukraine “KPI”. So, working with us
means that you will get both highly qualified
programmers and engineers in
military/aerospace domain for low rate.
Turnkey solutions
You can outsource to us some task or project, and you
will get a result on turnkey basis. You do not have to
waste your resources for managing a team and solving
operational tasks within your operational structure. You
will get a solution for your problem by outsourcing the
whole task to us, and we will manage it for you
Gate to Ukraine’s outsourcing market
Ukraine’s software outsourcing market is one of the
best in the world. Low rates and at the same time highly
skilled professionals can make high quality software for
low price. Our company can be your gate to the
Ukrainian Software outsourcing market
If some part of your projects can not be subcontracted to non-residents of your country due to government security rules, we can make
other parts of your projects that are safe for outsourcing according to your government law.
So, as you can see, to work with us is a good case for you, as you can reach your development goals with good economical and
technical results.
Modern Professional Simulators. 2013
3. GUARANTEES
Our task is long-term cooperation, and we are ready to develop new software and also improve existing software according to new
business requirements.
We do not plan to terminate our cooperation with you. Nevertheless we guarantee that in case of termination of cooperation by each
party we undertake an obligation to train your technicians to use our technology and our source code.
After release of the first (and every subsequent) version of the system we will provide the source code of the solution as well as source
code documentation, technical documentation with the description of the architecture of the solution and other Developer’s documentation.
Besides that, since we use iterative methodology, you can see if suddenly something goes not as expected at early stages, you can
also follow the process of develop since we develop software incrementally; in the end of every iteration we are ready to provide you
with a subsequent functional and improved software version, until the software completely complies with your requirements.
REPORTING
Weekly reports on performance process
To ensure transparency of development control we send a report every week.
Content of the report:
Works performed during the week, including analysis,
development and cumpletion of documentation
Current work status
Due to regular reports we can be on the same page with you and you can see that we develop according to established deadlines.
Access of your specialists into tracking system
We use JIRA (http://www.atlassian.com/software/jira/overview) for assignment of tasks and tracking their status.
Your team will be granted access to this system. Therefore you can see current actions of our team and our current tasks. In this
system you can leave your comments or questions for every task and also create your tasks. In this way, transparency of development process can be ensured for you.
Modern Professional Simulators. 2013
5. ABOUT US
We are company with 5+ years of expertise in the field of software development for computer appliance simulators.
Our mission is to be the company that produces high quality Modelling & Simulation software solutions that maximally satisfy
customer’s needs.
Having a high qualified team of system architects, developers, analysts, engineers and subject-matter experts we successfully develop
Modeling & Simulation software with necessary level of quality.
As we have a development center in Ukraine, we can produce high-fidelity software for low prices, as the rates in Ukraine are
significantly lower than in North America or Western Europe, but the professional level is high.
MAIN REASONS TO WORK WITH US
Professional team with expertise in area of Modelling & Simulation software development
Cost effective software development and expertise, as the rates in Ukraine are significantly lower than in North America or
Western Europe
Subject-matter experts in electrotechnic, aerospace and military domains
Turnkey-based approach. Give us a complex problem and receive the complex problem solution.
We can be your gate to Ukraine employees market. We have plenty of experienced professionals in the market for
low rates
COMPANY PROFILE
We have experience in developing software for :
MI-8/MI-17 helicopter and Aero L-39 Full Mission Simulators (FMS)
Dispatcher Center Simulator
Tactical Simulator for officers’ staff
We work as a subcontractor of simulator development companies to
provide them with all the necessary software for the simulators they
produce.
Modern Professional Simulators. 2013
Having a development center in Ukraine (Eastern
Europe) we can leverage all possibilities of its IT
market with a lot of high qualified programmers,
QA-Engineers and other IT professionals. As Ukraine
is an ex-USSR country, we also can leverage
experience of many high-qualified experts in military,
aerospace, electronics and other applied fields that
were prepared by the USSR and post-USSR
military-oriented education.
6. KEY POINTS OF OUR EXPERTISE
Software services
Full development cycle (analysis, implementation, quality assurance,
documenting, support) for all types of Modelling & Simulation software
development
Simulators development
Development of software for tactical, dispatcher center, FFS/FMS (Full
Flight Simulators / Full Mission Simulators) simulators
Development of Computer Based Trainers (CBT) & Trainer Procedure
Devices
Working with hardware and hw simulation
Simulation of on-board systems based on electrotechnical schemes.
Both interactions with hardware controls and software interactions
Geospatial development
Geospatial related development: using digital vector maps for dynamic
air and ground environment visualization, for editing environment etc.
Geospatial anchoring of all virtual world objects
Air traffic related simulation
Virtual air traffic modelling and airport facilities modelling using flight
dynamic principles and with terrain following. Modelling of airport facilities
and environment to teach pilots to operate with them
Development of software for studying of mutual communications of
dispatchers and aircrews.
Instructor operating development
Development of software for in-cockpit realism: outside world related
sounds etc, managing device control force feedback, in-cockpit
sounds, device illuminations etc.
Instructor operating stations development where an instructor can
monitor flight and mission tasks operating, state of on-board devices,
environment in 3D and on the maps, introduce device malfunctions etc.
Integration with different types of motion platforms, including 6
degrees of freedom motion platforms, controlling vibration system
Media classroom development showing current training in different
views with instruments for after-action review
Support of different type of cockpit visualization systems, like
spherical screens, virtual reality helmets etc.
Development of mission and environment editors for preparation of
different trainings
Network & Interoperability
Network interactions with other simulators or simulator parts using HLA 2010 Evolved protocol (or another interoperability protocol, like DIS, on
customer’s request) to train aircrew or for training formation flights and execution of formation combat missions.
Support of HLA integration with dispatcher center simulation to teach pilots and dispatchers to work together.
Applied development
Experience in such applied development areas as: aerodynamic, flight dynamics and air traffic management modelling; airport facilities modelling;
physics calculations and mathematical modelling; on-board systems modelling; vector maps and geospatial development; artificial intelligence (AI) and
virtual reality modelling; HLA and network related development; 3D visualization; database related development;
Subject-matter expertise in aerodynamic, radar and airport facilities, air traffic dispatching, artillery and joint tactics, electrotechnics.We can also hire
specialists in other applied fields on the market
Simulation of flight dynamics using physics principles, strong mathematical modelling, including aerodynamic modelling based on aircraft parameters.
Modelling of atmospheric effects, weather and time-of-day conditions for training pilots to operate in different conditions
3D and virtual reality
Realistic modelling of real-world terrain area with automatic approach, using elevation data, digital vector maps, terrain imagery and 3D models
typical for the region or automatic terrain generation according to customer’s needs
Rich 3D visualization development of huge terrain areas in hundreds of thousands of square kilometers with conformance of this area to the real
world (same elevation, land types, objects etc.)
Virtual world and AI simulation development. Distributed algorithm that calculates movements and actions of all units according to mission editor
tasks and their parameters. True physics and ballistic principles are used in simulation core.
Recording of all activities during simulation time for debriefing and after action review and with the possibility to replay the simulation from any point.
Action controls for starting, pausing or stopping the simulations. nVidia PhysX is used for high-performance of physics-related operations
Modern Professional Simulators. 2013
7. OUR TEAM
Our professional team consists of experts in different areas of simulator software development.
Lots of our specialists have master degrees from Technical Universities of Ukraine. The founders of this company also have master
degrees from National Technical University of Ukraine in system design speciality (http://cad.kpi.ua/en).
Our basic hiring principle is to hire only the professionals that like simulation development field, that like to work and investigate new
technologies. We enjoy our work and like to work a lot, because S&M modelling development is our life. That’s why we have a professional team that can bring to our customers high quality solutions that meet all customers’ needs.
Having high qualified team of system architects, developers, analysts, engineers and subject-matter experts we successfully develop
software for different simulators with necessary level of quality.
Subject-matter experts
Aerodynamics modelling experts
Flight modelling expert
We have experts in helicopter and airplane dynamics modelling that are
professors in this area and have 20+ years experience of modelling
simulators and real aircrafts. They have developed a library of aerodynamic
modelling of aircraft flight that takes into account parameters of propellers,
wing airfoils, fuselage, etc., for calculating ascensional force and other
aerodynamical parameters.
Source data packages for this model are received from test operations of
real aircrafts and from the airflow inside an air tunnel. Testing of the model
is performed by the airflow in the air tunnel too.
We have an expert in dynamics of aircraft flight. He has an expertise in
calculating trajectories of flight depending on different parameters of
aircraft and terrain elevation.
One of the important things he can do is to model behaviour of AI
controlled aircrafts that are described in mission editor. Operator can
describe the points which the aircraft should pass through and AI, the
logic of which is described by this expert, will model the flight of this
aircraft with passing all the mission points with terrain following.
Radar expert
Airfield equipment and traffic expert
Infantry and artillery tactic specialists
We have a world-class expert in radar
technologies. He has tens of years of
expertise in radar-related mathematics and
technologies. With his expertise we can
solve such tasks as modeling of radar
detection zone depending on the radar type
and characteristics, current terrain elevation
and types, location of radar station etc.
We have an airfield equipment and traffic
expert with 15+ years of experience in this
area. So, we can model airfield equipment
behaviour, objects and their parameters and
locations, we can model airfield traffic
patterns, communication with dispatch
centers, model work of dispatchers and
processes in dispatcher centers etc.
We have specialists in infantry and artillery
tactics. They are both colonels of infantry
and artillery accordingly. So, their expertise
in tactics could be used for modelling of
forces or AI behaviour, for creating missions,
testing adequateness of combat etc.
Engineering staff
Programmers staff
Electro-technical engineering staff
We have experienced Java and C++ programmers that can develop highly
technological software for simulators, as they have experience in
development of simulators that we have already developed.
We have electro-technical engineering staff with proper university master
education. So we can read, for example, electro-technical schemes and
implement them to simulator software code with proper behaviour
They are not just programmers, but also applied specialists that understand
physics, mathematics, aerodynamics, artificial intelligence, cartography etc.
2D and 3D Designers
Our team has 2D and 3D designers that can develop interface design or
3D models for 3D visualization.
3D Visualization developers
Our team contains ex GSC Game World specialists that have created S.T.A.L.K.E.R game series and other GSC Game World games. We use their
experience for creating realistic 3D visualization for simulators.
For example, for a helicopter simulator we have created 3D visualization of a virtual world with the size of almost 200 000 sq. kms). Despite of the size, this
is high performance visualization because of our dynamic loading technology that supports huge areas for visualization.
As they came from the game world where requirements to visualization quality are high, our 3D visualization is nice-looking and with high quality.
Modern Professional Simulators. 2013
9. Mi-8/Mi-17 helicopter Full Mission Simulator (FMS)
We develop software of Mi-8/Mi-17 helicopter simulator as the main subcontractor of a company that develops computer appliance
simulators.
This simulator is a computer appliance Full Mission Simulator (FMS) with 6 degrees of freedom motion platform, hardware copy of
cockpit with realistic copies of all devices, sound effects and cockpit device illumination system, instructor operating stations, media
classroom and spherical display for Outside World visualization.
This simulator is network-based and can act in a shared virtual environment with each other, dispatcher center simulator workplaces
and other simulators using HLA protocol.
Key features of our developed simulator software
Advanced flight simulation development
Simulation for complex training both procedural and flight operations
(turning on, driving, takeoff, landing, flight operating, manoeuvring,
technical failures operating, firing, bombing, etc.)
Simulation of flight dynamics using physics principles, strong
mathematical modelling, including aerodynamic modelling based on
aircraft parameters. We have subject-matter experts for projecting and
implementing such tasks.
Modelling of atmospheric effects, weather, time-of-day and season
conditions for training pilots to operate in different conditions (for
example, such parameters as wind, temperature, turbulence, density,
humidity, flying on low altitudes affect the aerodynamics of a flight; rain,
snow, fog, clouds, sun shine, time-of-day light visual effects are
modelled for teaching a crew to operate in different visual conditions)
Network & Interoperability
Network interactions with other simulators or simulator parts using
HLA 2010 Evolved protocol (or another interoperability protocol, like
DIS, on customer’s request) to train aircrew or for training formation
flights and execution of formation combat missions.
Support of HLA integration with dispatcher center simulation to teach
pilots and dispatchers to work together.
Instructor operating development
Instructor operating stations development where an instructor can
monitor flight and mission tasks operating, state of on-board devices,
environment in 3D and on the maps, introduce device malfunctions etc.
Also monitoring of soft for a media classroom showing the current
training in different views. Multi monitor workstations are used for
providing such information.
Recording of all distributed activities during simulation for debriefing
and after-action review across distributed environment with the
possibility to replay the simulation from any point. Action controls for
starting, pausing or stopping the simulations.
Development of mission and environment editors for the preparation of
different trainings. Modelling of airport facilities and environment to
teach pilots to operate with them
Geospatial development
Geospatial related development: using a map for dynamic air and
ground environment visualization, for editing environment etc.
Modern Professional Simulators. 2013
Working with hardware and hw simulation
Simulation of on-board systems based on electrotechnical schemes.
Our electrotechnical engineers can describe on-board devices model
and implement it with our developers. Inner logic, interactions with
hardware devices, visualization of devices on Instructor Operating
Stations we can implement for a trainee to be able to study working
with on-board systems effectively
Integration with different types of motion platforms (including 6
degrees of freedom platforms), controlling vibration system
Support of different types of cockpit visualization systems (for
example, a spherical screen with a set of stuck together images from
different projectors)
In-cockpit realism development: software for controlling devices
illuminations, in-cockpit sounds, outside world related sounds,
managing device controls force feedbacks etc.
3D, terrain, AI and virtual reality world
Realistic modelling of a real-world terrain area with automatic
approach, using elevation data, digital vector maps, terrain imagery
and 3D models typical for the region or automatic terrain generation
according to the customer’s needs
Rich 3D visualization development of huge terrain areas in hundreds
of thousands of square kilometers with correspondence of this area
to the real world (same elevation, land types, objects etc.)
Virtual world and AI simulation development. Distributed algorithm
that calculates movements and actions of all the units according to
mission editor tasks and their parameters. AI simulates complex
patterns like decision making, aim selection, shooting etc. We take
into account lots of parameters when developing a virtual world:
parameters of each ground or air unit (configurable into editors),
relief, land types, movement capabilities etc. True physics and
ballistic principles are used in the simulation core. nVidia PhysX is
used for high-performance of physics-related operations
Air traffic related simulation
Virtual air traffic modelling using flight dynamic principles and with
terrain following
10. Aero L-39 aircraft Full Mission Simulator (FMS)
We are now at an early stage of developing software of Aero L-39 aircraft simulator as the main subcontractor of a company that
develops computer appliance simulators.
This is a HLA-based computer appliance Full Mission Simulator (FMS) with 6 degrees of freedom motion platform, hardware copy of
cockpit with realistic copies of all devices, sound effects and cockpit device illumination system, instructor operating stations, media
classroom and spherical display for Outside World visualization.
By its properties this simulator will be identical to Mi-8/Mi-17 helicopter simulator.
Key features of our developed simulator software
Advanced flight simulation development
Simulation for complex training both procedural and flight operations
(turning on, driving, takeoff, landing, flight operating, manoeuvring,
technical failures operating, firing, bombing, etc.)
Simulation of flight dynamics using physics principles, strong
mathematical modelling, including aerodynamic modelling based on
aircraft parameters. We have subject-matter experts for projecting and
implementing such tasks.
Modelling of atmospheric effects, weather, time-of-day and season
conditions for training pilots to operate in different conditions (for
example, such parameters as wind, temperature, turbulence, density,
humidity, flying on low altitudes affect the aerodynamics of a flight; rain,
snow, fog, clouds, sun shine, time-of-day light visual effects are
modelled for teaching a crew to operate in different visual conditions)
Network & Interoperability
Network interactions with other simulators or simulator parts using
HLA 2010 Evolved protocol (or another interoperability protocol, like
DIS, on customer’s request) to train aircrew or for training formation
flights and execution of formation combat missions.
Support of HLA integration with dispatcher center simulation to teach
pilots and dispatchers to work together.
Instructor operating development
Instructor operating stations development where an instructor can
monitor flight and mission tasks operating, state of on-board devices,
environment in 3D and on the maps, introduce device malfunctions etc.
Also monitoring of soft for a media classroom showing the current
training in different views. Multi monitor workstations are used for
providing such information.
Recording of all distributed activities during simulation for debriefing
and after-action review across distributed environment with the
possibility to replay the simulation from any point. Action controls for
starting, pausing or stopping the simulations.
Development of mission and environment editors for the preparation of
different trainings. Modelling of airport facilities and environment to
teach pilots to operate with them
Geospatial development
Geospatial related development: using a map for dynamic air and
ground environment visualization, for editing environment etc.
Modern Professional Simulators. 2013
Working with hardware and hw simulation
Simulation of on-board systems based on electrotechnical schemes.
Our electrotechnical engineers can describe on-board devices model
and implement it with our developers. Inner logic, interactions with
hardware devices, visualization of devices on Instructor Operating
Stations we can implement for a trainee to be able to study working
with on-board systems effectively
Integration with different types of motion platforms (including 6
degrees of freedom platforms), controlling vibration system
Support of different types of cockpit visualization systems (for
example, a spherical screen with a set of stuck together images from
different projectors)
In-cockpit realism development: software for controlling devices
illuminations, in-cockpit sounds, outside world related sounds,
managing device controls force feedbacks etc.
3D, terrain, AI and virtual reality world
Realistic modelling of a real-world terrain area with automatic
approach, using elevation data, digital vector maps, terrain imagery
and 3D models typical for the region or automatic terrain generation
according to the customer’s needs
Rich 3D visualization development of huge terrain areas in hundreds
of thousands of square kilometers with correspondence of this area
to the real world (same elevation, land types, objects etc.)
Virtual world and AI simulation development. Distributed algorithm
that calculates movements and actions of all the units according to
mission editor tasks and their parameters. AI simulates complex
patterns like decision making, aim selection, shooting etc. We take
into account lots of parameters when developing a virtual world:
parameters of each ground or air unit (configurable into editors),
relief, land types, movement capabilities etc. True physics and
ballistic principles are used in the simulation core. nVidia PhysX is
used for high-performance of physics-related operations
Air traffic related simulation
Virtual air traffic modelling using flight dynamic principles and with
terrain following
11. Tactical Simulator for officer’s staff
We took part as team members in developing a tactical simulator for military officers’ tactics trainings and mission rehearsals.
This simulator was developed with the principles of maximum correspondence to the real world and to tactical actions of military
officers.
Key features of our developed simulator software
Tactical simulation features
Planning and fighting simulation modes
Possibilities for what-if analysis: fast forward to see the result of current
officers’ decisions
Support of units from different military branches taking part in
simulation
Map visualization with displaying a big picture of battlefield using
formation signs
On-map drawing mode for drawing the assumed enemy forces and
other signs for decision making
3D, terrain, AI and virtual reality world
Real-time simulation of battlefield with huge amounts of units and
formations
True mathematical modelling of physics processes, like weapon
ballistics depending on weaponry and ammunition properties. Each
unit movement and action, weapon shot etc. is modelled individually
using a strong mathematical model. nVidia PhysX is used for high
performance of physics related calculations
Modelling of real world area terrain using geospatial information and
elevation data
Strong AI for simulating movements and actions of virtual units, with
line-of-sight checks, collision detections, path findings, damage logic
etc.
3D visualization for modelling field officers’ viewpoints and 3D
free-fly mode for instructor situational awareness
Modern Professional Simulators. 2013
Instructor operating development
Instructor operating station for monitoring and controlling the
simulation, the computer simulated forces are used for playing up via
introducing battle events etc.
Distributed events recordings for debriefing and after-action review
Network simulator with supporting of plenty of workplaces for
collaborative training of officers staff
Strong unit, formation and mission editors for defining unit, weaponry
and ammunition properties, formations structure, source geospatial
data and map imagery, graphical setting of forces positions and their
tasks etc
Geospatial development
Geospatial based, geodesy and cartography are widely used in
calculations, e.g. distances, coordinates etc
12. Dispatcher Center simulator
We develop software of Dispatcher Center Simulator as the main subcontractor of a company that develops computer appliance
simulators.
This simulator have set of workplaces for dispatchers or air control officers where each of them can train to control the air traffic and
solve different air traffic problems. Also this simulator have powerful Instructor Operating Station for exercises preparations, controlling and after action reviewing.
Real world areas and are precisely modelled, with relief correspondence. Also civil air traffic and related objects of real area is
modelled to train dispatchers and air control officers be ready to work in concrete real world environment.
This simulator is network-based and trainees at workplaces can act in a shared virtual environment with each other, man-in-the loop
aircraft simulators and instructors using voice hardware and HLA protocol.
Key features of our developed simulator software
Air traffic related simulation
Real-time air traffic modelling and management
Man-in-the-loop and computer-in-the-loop simulated aircrafts support
Modelling of airport-related environment
Radar work simulation with visibility zone calculation, azimuth grid and
radar scan sweeps
Realistic modelling of flight dynamics and trajectories, with correct turn
radiuses calculations depending on aircraft properties
Network & Interoperability
HLA based network simulator with lots of workplaces of dispatchers
or air control officers who share the same virtual environment
Modern Professional Simulators. 2013
Instructor operating development
Instructor Operating Station for controlling traffic, setting
meteorological conditions, time of day etc, for aircrew answers voice
accompanying for training dispatchers, accompanying computer-inthe-loop aircrafts behaviour according to a dispatcher’s orders
On-map for a “big picture” and 3D views for situational awareness are
available
Editors for configuration of airport-related environment
Distributed simulation recording for debriefing and after-action review
Geospatial development
Geospatial based, geodesy and cartography are widely used in
calculations, e.g. distances, coordinates etc
13. Computer Based Trainings
As part of FMS and Dispatcher Center simulators development, we developed Computer Based Trainings (CBT).
Due to our architectural principles, same software is used both for Full Mission Simulators and Computer Based Trainings. Software
modules can be configured to work with hardware, with network over HLA or just simulate hardware and visualize it on computer
display.
Computer Based Trainings are used for members of instructors’ team can play up to trainees as wingmans or some own or alien
units.They can be used also as cost-effective training solutions. As same to Full Mission Simulators high fidelity codebase is used for
Computer Based Trainings, our customers can hold high quality exercises using same aerodynamics and on-board systems modelling as in Full Mission Simulators.
Our tactical simulator for officers’ staff in fact is a network based Computer Based Training simulator with addition of some radio
emulated voice hardware.
Key features of our developed simulator software
Advanced simulation
Advanced flight simulation development
Real-time simulation for complex trainings of operating different
machines or processes
Development of driving and military ground machines simulators
Network & Interoperability
Network interactions with other simulators or simulator parts using
HLA 2010 Evolved protocol to train aircrew or for training of
formation flights and execution of formation combat missions.
Support of integration with other simulators for performing military
cross-branches trainings with different types of simulators.
Support of HLA integration with dispatcher center simulation to teach
pilots and dispatchers (or air control officers) to work together.
Development of flight simulator software for teaching procedural and
flight operations (turning on, driving, takeoff, landing, flight operating,
manoeuvring, technical failures operating, firing, bombing, etc)
Simulation of flight dynamics using physics principles, strong
mathematical modelling, including aerodynamic modelling based on
aircraft parameters. We have subject-matter experts for projecting
and implementing such tasks.
Modelling of atmospheric effects, weather, time-of-day and season
conditions to train pilots to operate in different conditions (for
example, such parameters as wind, temperature, turbulence, density,
humidity, flying on low altitudes affect the aerodynamics of a flight;
rain, snow, fog, clouds, sun shine, time-of-day light visual effects are
modeled to train crew to operate in different visual conditions)
Hardware simulation
Instructor operating development
Instructor operating stations development where an instructor can
monitor flight and mission tasks operating, state of on-board devices,
environment in 3D and on the maps, introduce device malfunctions,
etc. Also monitoring soft for a media classroom showing the current
training in different views. Multi monitor workstations are used for
providing such information.
Recording of all distributed activities during simulation for debriefing
and after-action review across distributed environment with the
possibility to replay the simulation from any point. Action controls for
starting, pausing or stopping the simulations.
Development of mission and environment editors for the preparation
of different training. Modelling of airport facilities and environment to
teach pilots to operate with them
Tactical simulation for officer’s staff development
Development of tactical simulators: planning mode, what-if analysis of
tactical decisions, on-map drawings, support of different military
branches etc
Geospatial development
Geospatial related development: using a map for dynamic air and
ground environment visualization, for editing environment etc
Simulation of on-board systems based on electrotechnical schemes.
Our electro-technical engineers can describe an on-board devices
model, and implement it with our developers. We can implement inner
logic, interactions with hardware devices, visualization of devices on
Instructor Operating Stations we can implement for a trainee to be
able to study working with on-board systems effectively
3D, terrain, AI and virtual reality world
Realistic modelling of a real-world terrain area with automatic
approach, using elevation data, digital vector maps, terrain imagery
and 3D models typical for region or automatic terrain generation
according to the customer’s needs
Rich 3D visualization development of huge terrain areas in hundreds
of thousands of square kilometers with correspondence of this area to
the real world (same elevation, land types, objects etc)
Virtual world and AI simulation development. Distributed algorithm
that calculates movements and actions of all the units according to
the tasks of mission editor and their parameters. AI simulates
complex patterns like decision making, aim selection, shooting etc.
We take into account lots of parameters when developing a virtual
world: parameters of each ground or air units (configurable into
editors), relief, land types, movement capabilities etc.True physics
and ballistic principles are used in the simulation core. nVidia PhysX
is used for high-performance of physics-related operations
Air traffic related simulation
Virtual air traffic modelling using flight
dynamic principles and with terrain following
Modern Professional Simulators. 2013
Modelling of airport related environment
Radar work simulation with visibility zone
calculation, azimuth grid and radar scan sweeps
15. Overview
We have an expertise in development of software for military simulators.
We have 5+ years of experience in developing software for:
Full Mission Simulators (FMS);
Dispatcher Center Simulators;
Tactical Simulators for Officer’s Staff;
and can develop other military and civil simulators according to customer’s needs. We work as a subcontractor of simulator development companies to provide them with all the necessary software for the simulators they produce.
We develop our software with the principles of maximal realism for effective teaching of military personnel to work with
vehicles, understand tactics or follow military procedures. All processes in our simulators are processed with strong
mathematics background and with observing the principles of physics. Aerodynamics is calculated based on aircraft
parameters for flight simulators and meteorological conditions, ballistics of ammunition depends on weather conditions
and parameters of ammunition and weapons, etc.
Our mission is to be the company that produces high quality Modelling & Simulation (M&S) software solutions that maximally satisfy
customer’s needs. So we are ready to develop not only software for air, ground or marine simulators, but also other types of
Modelling & Simulation software.
Our simulators are network-based using HLA 2010 Evolved protocol and can be used for teaching cooperation of the whole crew,
dispatcher team or division command simultaneously. Note that HLA is not a limitation for us and we can use other interoperability
technologies (like DIS) in our simulator development.
AI that we develop allows teaching a trainee effectively to complete specific mission tasks by introducing virtual environment that has
dynamics similar to a virtual world: flying of aircrafts, battle of different types of military units, etc. For example, with such an
approach a helicopter simulator trainee can not only study to operate the helicopter flight, but also to complete mission tasks like
performing a battle against enemy or operating a helicopter in aggressive battlefield environment.
We model terrain to maximally conform some real world area. Elevation, land types, water areas and ground objects maximally
correspond to some real world area. So, for example, a trainee can be maximally prepared with the simulator before real-life
exercises.
Our simulators support different types of hardware: cockpits, display systems, on-board devices etc.
All sound and illumination effects hardware for in-cockpit realism is managed by our software.
We develop our simulators based on architecture approach.We extract everything that can be reused in other simulators or in the
same simulator as a reusable module. Owing to this our approach allows us to develop a new simulator or extend the existing one
rapidly, with minimal efforts, costs and terms. You can read precisely about our approach in subsection of this section.
You can read precise subsections of this section for getting more details about our services.
Modern Professional Simulators. 2013
16. Solution Architecture
We develop our simulators based on architecture modular approach.We extract everything that can be reused in other simulators or
in the same simulator as a reusable module. Owing to this our approach allows us to develop a new simulator or extend the existing
one rapidly, with minimal efforts, costs and terms.
Using this approach with each new simulator developed our architecture became more robust and reusable, owing to the
minimization of new projects costs and terms.
End user simulator products
Dispatcher center
Simulators
Flight Simulators
Consists of
Tactical Simulators
Software
Consists of
Reusable Program Modules
Visualisation
Framework
Exersises Preparation
Center
Extended Vector
Maps Framework
Virtual World
Framework
Instructor Operation
Station
Other Simulators
Hardware
Simulator
Display System
Motion Platform
Flight (ground/navy)
simulation engine
Cockpit devices
AI
module
On-Board Systems
Framework
3rd party
Simulators
Distributed Data Bus
HLA
Framework
Data Framework
Our Other Simulators Software
Reusable Program
Modules
Relational
DB
InMemory
Storage
Other Data
Sources
Distributed Data Bus
You can see our approach to the simulation development from our architecture diagram. Each of the simulators contains architecture
blocks that can be reused in new simulators.Such approach as described in the architecture diagram leads to drastic minimization of
development efforts and costs. As all synchronization and data-related codes have been written before and located in Distributed
Data Bus, all other reusable codes are located in the simulator modules developed before, simulator developers have to write only a
code of specific simulator logic. So, a smaller amount of simulator developers and less time are required for developing software for
a new simulator.
Modern Professional Simulators. 2013
17. FFS (Full Flight Simulators) / FMS (Full Mission Simulators)
We develop software for FFS/FMS computer appliance simulators for crew trainings.
We model all necessary aspects of simulators:
aerodynamic modelling with taking into account external factors;
high quality visualization of Outside World;
interactions with motion platform;
modelling of all on-board systems;
cockpit devices and visualization systems;
interaction with crew by controls and gauges
replicating of real world areas in Outside World with different
environment conditions;
Key points of our FFS/FMS software services
Advanced flight simulation development
Simulation for complex training both procedural and flight operations
(turning on, driving, takeoff, landing, flight operating, manoeuvring,
technical failures operating, firing, bombing, etc.)
Simulation of flight dynamics using physics principles, strong
mathematical modelling, including aerodynamic modelling based on
aircraft parameters. We have subject-matter experts for projecting and
implementing such tasks.
Modelling of atmospheric effects, weather, time-of-day and season
conditions for training pilots to operate in different conditions (for
example, such parameters as wind, temperature, turbulence, density,
humidity, flying on low altitudes affect the aerodynamics of a flight; rain,
snow, fog, clouds, sun shine, time-of-day light visual effects are
modelled for teaching a crew to operate in different visual conditions)
Network & Interoperability
Network interactions with other simulators or simulator parts using
HLA 2010 Evolved protocol (or another interoperability protocol, like
DIS, on customer’s request) to train aircrew or for training formation
flights and execution of formation combat missions.
Support of HLA integration with dispatcher center simulation to teach
pilots and dispatchers to work together.
Instructor operating development
Instructor operating stations development where an instructor can
monitor flight and mission tasks operating, state of on-board devices,
environment in 3D and on the maps, introduce device malfunctions etc.
Also monitoring of soft for a media classroom showing the current
training in different views. Multi monitor workstations are used for
providing such information.
Recording of all distributed activities during simulation for debriefing
and after-action review across distributed environment with the
possibility to replay the simulation from any point. Action controls for
starting, pausing or stopping the simulations.
Development of mission and environment editors for the preparation of
different trainings. Modelling of airport facilities and environment to
teach pilots to operate with them
Geospatial development
Geospatial related development: using a map for dynamic air and
ground environment visualization, for editing environment etc.
Modern Professional Simulators. 2013
Working with hardware and hw simulation
Simulation of on-board systems based on electrotechnical schemes.
Our electrotechnical engineers can describe on-board devices model
and implement it with our developers. Inner logic, interactions with
hardware devices, visualization of devices on Instructor Operating
Stations we can implement for a trainee to be able to study working
with on-board systems effectively
Integration with different types of motion platforms (including 6
degrees of freedom platforms), controlling vibration system
Support of different types of cockpit visualization systems (for
example, a spherical screen with a set of stuck together images from
different projectors)
In-cockpit realism development: software for controlling devices
illuminations, in-cockpit sounds, outside world related sounds,
managing device controls force feedbacks etc.
3D, terrain, AI and virtual reality world
Realistic modelling of a real-world terrain area with automatic
approach, using elevation data, digital vector maps, terrain imagery
and 3D models typical for the region or automatic terrain generation
according to the customer’s needs
Rich 3D visualization development of huge terrain areas in hundreds
of thousands of square kilometers with correspondence of this area
to the real world (same elevation, land types, objects etc.)
Virtual world and AI simulation development. Distributed algorithm
that calculates movements and actions of all the units according to
mission editor tasks and their parameters. AI simulates complex
patterns like decision making, aim selection, shooting etc. We take
into account lots of parameters when developing a virtual world:
parameters of each ground or air unit (configurable into editors),
relief, land types, movement capabilities etc. True physics and
ballistic principles are used in the simulation core. nVidia PhysX is
used for high-performance of physics-related operations
Air traffic related simulation
Virtual air traffic modelling using flight dynamic principles and with
terrain following
18. Virtual Reality Worlds
We can create virtual reality worlds with terrain, cultural objects, ground and atmospheric environment and different types of units
controlled by AI that are used in different simulators, such as Full Mission Simulators (FMS) or Tactical Simulators.
Such a virtual world is simulated in real-time mode by a virtual world engine. All the missions that are created in mission editors are
calculated and modelled by AI engine. In this virtual world different types of ground / aerial / marine units are moving, taking part in
combats, attacking, marching, flying etc. according to their missions and led by AI according to the actual environment and combat
conditions.
So, we can create a world that simulates some real combat or other military or civil actions. This virtual world can be used for
example:
for teaching army staff to command their formations in combat conditions in tactical simulator and to understand how to make
correct tactical decisions in different situations
for teaching pilots and other machine staff to operate their machine and combat with their machine in real combat conditions
for displaying current combat to training instructors
Core features of the worlds that we can simulate:
Real-time simulation of the real world, including moving and combat
actions of different unit types
Correspondence of a virtual world to some real world area. Elevation
map, terrain imagery, digital vector maps and 3D models typical for
region are used to perform it. Random terrain generation abilities
Thousands of simulated units in one virtual world
Distributed synchronized world that allows different users to work
with the same world simultaneously
Integrated physics, including collision and damage processing.
nVidia PhysX is used for high performance of such calculations
Rich logic of a simulated world, including bullet and shell ballistics
depending on weather conditions same to ammunition and weapon
characteristics, different parameters of unit that are taken into account
during simulation process, trafficability etc. Each unit acts according to
its characteristics using physics principles. All characteristics can be
changed through characteristics editors and behaviour will change
based on the new characteristics.
Graphical editor of starting positions and mission tasks for unit and
formation during simulation process
Rich AI (Artificial Intelligence) that makes decision for each simulated
unit (AI features are described precisely below)
Support of any amounts of viewpoints, including different 2D (paper
scan-based map, digital vector map etc) or 3D views
AI features of a simulated world:
On each simulation step AI takes decision concerning the movement
or action that should be made at the current step
Complex behaviour patterns are taken into account (like march of
different combat arm formations from point A to point B with boarding
of infantry into vehicles and overrunning a position)
Fire behavior modelling of each unit depending on a set of parameters, including line-of-sights checks to enemy units and types of
weapons/ammunition and enemy units
Entrenching of units. If units are entrenched, their damaging
calculations are operated as for entrenched units.
Modern Professional Simulators. 2013
Path finding for unit movements. Plenty of parameters are taken into
account: trafficability, bypassing obstacles, shortest distance to target,
march rules etc.
Damage calculations. All bullets and shells are flown by their ballistics,
calculation of which depends on lots of properties of weapon and
ammunition. Damage depends on collision detection for a bullet or
distance to target to shell. Depending on damage type calculation,
elimination or immobilization of a unit can take place.
19. Tactical Simulators for officer’s staff
We are experienced in creating tactical simulators for officer personnel.
Tactical simulator allows officers to train and improve their tactical skills of commanding formations in combat conditions. This is a
collective training where a team of officers from both sides takes part in simulator training using a computer network. Officers study
to plan and fight a battle, with possibilities of what-if tactical analysis and after-action review.
Key points of our development:
Tactical simulation features
Planning and fighting simulation modes
Possibilities for what-if analysis: fast forward to see the result of current
officers’ decisions
Support of units from different military branches taking part in
simulation
Map visualization with displaying a big picture of battlefield using
formation signs
On-map drawing mode for drawing the assumed enemy forces and
other signs for decision making
3D, terrain, AI and virtual reality world
Real-time simulation of battlefield with huge amounts of units and
formations
True mathematical modelling of physics processes, like weapon
ballistics depending on weaponry and ammunition properties. Each
unit movement and action, weapon shot etc. is modelled individually
using a strong mathematical model. nVidia PhysX is used for high
performance of physics related calculations
Modelling of real world area terrain using geospatial information and
elevation data
Strong AI for simulating movements and actions of virtual units, with
line-of-sight checks, collision detections, path findings, damage logic
etc.
3D visualization for modelling field officers’ viewpoints and 3D
free-fly mode for instructor situational awareness
Modern Professional Simulators. 2013
Instructor operating development
Instructor operating station for monitoring and controlling the
simulation, the computer simulated forces are used for playing up via
introducing battle events etc.
Distributed events recordings for debriefing and after-action review
Network simulator with supporting of plenty of workplaces for
collaborative training of officers staff
Strong unit, formation and mission editors for defining unit, weaponry
and ammunition properties, formations structure, source geospatial
data and map imagery, graphical setting of forces positions and their
tasks etc
Geospatial development
Geospatial based, geodesy and cartography are widely used in
calculations, e.g. distances, coordinates etc
20. Terrain Generation and Modelling
We have expertise in real world terrain modelling. So, we can recreate real world areas in our virtual world with maximum level of
similarity. In this case maximum realism of training can be reached because trainees can be most prepared for further training in the
same place in the real world, and the most important properties of the real world have already been taken into account in the
simulation process.
We develop software for automatization of terrain modelling. Using an elevation map (in SRTM or other format), terrain imagery,
digital vector maps and 3D models typical for the region our terrain generation module can create simulation and 3D models of the
real-world area for their further use in simulation. Models are created both at simulation (for simulation algorithms) and 3D scene
levels.
Obviously, military training in some real world area is the most much effective if trainees have experienced training in such a place
with a simulator before.
We simulate a real world area with the greatest level of similarity:
Automatic modelling of a real world area terrain using an elevation
map, terrain imagery, digital vector maps and 3D models typical for
the region. Random terrain generation abilities
Weather, lighting and atmospheric effects according to the real world
area. All these effects are taken into account when modelling aerodynamic of flight.
Recreation of the real world relief (using SRTM or customer terrain
elevation database) and its use in our simulation model. The relief is
taken into account for aerodynamics modelling, calculating of radar
zones, information purposes, possibility to move ground machines
etc.
High realistic 3D visualization of a real world area. So, a pilot can train
to fly with a helicopter simulator on some simulated area of the real
world with the same relief, aerodynamics, same objects like cities,
temples, towers etc. After such a simulation he can train with a real
helicopter and know this area because he has flown there many times
before with the simulator. Pilots reported about realism of visualization
because they recognized the area in the simulator.
Modelling of real world terrain types, for example lakes, forests, bogs
etc. These types of terrain are take into account in the model and
affect the movements of ground machines and soldiers. Basic
information about the terrain types is got from digital vector maps in
automatic mode
Modelling of real world natural or cultural objects. For example,
some single rock, tree or building, or a village or city. All these
objects are taken into account in a simulation model, for example it
affects moving or positioning of ground machines.
Modern Professional Simulators. 2013
Development of 3D models similar to a modelled region. These models
are used on terrain creating algorithms
21. Dispatcher Center simulators
We develop dispatcher center simulations for training dispatchers and combat controllers for air traffic management.
At the same time this simulator allows to teach aircrews to interact with ground dispatchers and air control officers using voice
protocols.
Core simulator features
Air traffic related simulation
Real-time air traffic modelling and management
Man-in-the-loop and computer-in-the-loop simulated aircrafts support
Modelling of airport-related environment
Radar work simulation with visibility zone calculation, azimuth grid and
radar scan sweeps
Realistic modelling of flight dynamics and trajectories, with correct turn
radiuses calculations depending on aircraft properties
Network & Interoperability
HLA based network simulator with lots of workplaces of dispatchers
or air control officers who share the same virtual environment
Modern Professional Simulators. 2013
Instructor operating development
Instructor Operating Station for controlling traffic, setting
meteorological conditions, time of day etc, for aircrew answers voice
accompanying for training dispatchers, accompanying computer-inthe-loop aircrafts behaviour according to a dispatcher’s orders
On-map for a “big picture” and 3D views for situational awareness are
available
Editors for configuration of airport-related environment
Distributed simulation recording for debriefing and after-action review
Geospatial development
Geospatial based, geodesy and cartography are widely used in
calculations, e.g. distances, coordinates etc
22. Cartographic based programming
We have expertise in development of cartographic software.
Examples of our services:
Displaying of vector maps. We have even created our own
framework for working with digital vector maps. We use vector maps
visualization everywhere: in mission editors, for visualizations at
dispatcher center or instructor operating stations etc.
Geodesic calculations. For example, in our simulators every object
or terrain is geodesically anchored according to the real world with
the possibility of different geodesic calculations like distance
measuring etc.
Integration of digital vector maps into applications. For example, we
dynamically display current aircraft positions, radar scans, landing
beacon visualizations, airfield traffic patterns etc. just over the map in
our different simulators. Or we use these maps in mission editors
with the customized signs developed in-house for using them on the
map
Modern Professional Simulators. 2013
Raster maps support. For example, we used raster maps for our
tactical simulator (for the maps to look the same as the officers have
got accustomed). These raster maps were anchored to geographic
coordinates same to the virtual world, so we had military signs on the
map to visualize current combat environment. In a similar way we used
raster maps for mission editors.
23. Computer Based Trainings / Training Procedure Devices
As we have expertise in production of FMS simulators we also can develop Computer Based Trainings or software for Training
Procedure Devices for cost effective trainings. Under Training Procedure Devices we mean a simplified (in comparison with FMS)
computer appliance with or without cockpits or motion platforms for crew members to practice flight procedures. So, we can make
less expensive training solutions based on low-fidelity hardware but still with high-fidelity software.
For flight procedure trainers we can develop, for example, a non-board devices trainer which truly models on-board systems
behaviour.
We can also develop a low cost flight trainer with computer display that has an adequate aero-dynamic model. Besides we can use
our AI To simulate own and alien units for adjustment of trainee’s skills.
You can leverage all high-fidelity software possibilities of Full Mission Simulators in Computer Based Trainings / Training Procedure
Devices and we can develop it for our clients.
Examples of our development possibilities:
Advanced simulation
Advanced flight simulation development
Real-time simulation for complex trainings of operating different
machines or processes
Development of driving and military ground machines simulators
Network & Interoperability
Network interactions with other simulators or simulator parts using
HLA 2010 Evolved protocol to train aircrew or for training of
formation flights and execution of formation combat missions.
Support of integration with other simulators for performing military
cross-branches trainings with different types of simulators.
Support of HLA integration with dispatcher center simulation to teach
pilots and dispatchers (or air control officers) to work together.
Development of flight simulator software for teaching procedural and
flight operations (turning on, driving, takeoff, landing, flight operating,
manoeuvring, technical failures operating, firing, bombing, etc)
Simulation of flight dynamics using physics principles, strong
mathematical modelling, including aerodynamic modelling based on
aircraft parameters. We have subject-matter experts for projecting
and implementing such tasks.
Modelling of atmospheric effects, weather, time-of-day and season
conditions to train pilots to operate in different conditions (for
example, such parameters as wind, temperature, turbulence, density,
humidity, flying on low altitudes affect the aerodynamics of a flight;
rain, snow, fog, clouds, sun shine, time-of-day light visual effects are
modeled to train crew to operate in different visual conditions)
Hardware simulation
Instructor operating development
Instructor operating stations development where an instructor can
monitor flight and mission tasks operating, state of on-board devices,
environment in 3D and on the maps, introduce device malfunctions,
etc. Also monitoring soft for a media classroom showing the current
training in different views. Multi monitor workstations are used for
providing such information.
Recording of all distributed activities during simulation for debriefing
and after-action review across distributed environment with the
possibility to replay the simulation from any point. Action controls for
starting, pausing or stopping the simulations.
Development of mission and environment editors for the preparation
of different training. Modelling of airport facilities and environment to
teach pilots to operate with them
Tactical simulation for officer’s staff development
Development of tactical simulators: planning mode, what-if analysis of
tactical decisions, on-map drawings, support of different military
branches etc
Geospatial development
Geospatial related development: using a map for dynamic air and
ground environment visualization, for editing environment etc
Simulation of on-board systems based on electrotechnical schemes.
Our electro-technical engineers can describe an on-board devices
model, and implement it with our developers. We can implement inner
logic, interactions with hardware devices, visualization of devices on
Instructor Operating Stations we can implement for a trainee to be
able to study working with on-board systems effectively
3D, terrain, AI and virtual reality world
Realistic modelling of a real-world terrain area with automatic
approach, using elevation data, digital vector maps, terrain imagery
and 3D models typical for region or automatic terrain generation
according to the customer’s needs
Rich 3D visualization development of huge terrain areas in hundreds
of thousands of square kilometers with correspondence of this area to
the real world (same elevation, land types, objects etc)
Virtual world and AI simulation development. Distributed algorithm
that calculates movements and actions of all the units according to
the tasks of mission editor and their parameters. AI simulates
complex patterns like decision making, aim selection, shooting etc.
We take into account lots of parameters when developing a virtual
world: parameters of each ground or air units (configurable into
editors), relief, land types, movement capabilities etc.True physics
and ballistic principles are used in the simulation core. nVidia PhysX
is used for high-performance of physics-related operations
Air traffic related simulation
Virtual air traffic modelling using flight
dynamic principles and with terrain following
Modern Professional Simulators. 2013
Modelling of airport related environment
Radar work simulation with visibility zone
calculation, azimuth grid and radar scan sweeps
24. 3D Visualization
We can make 3D visualization of any simulator view or simulated environment.
Examples of our software that can be developed:
3D visualization of virtual worlds on simulator display
Free-fly camera for an instructor to see what is happening in any part of the simulated world in real time or on post-action basis
Camera that is tied to a helicopter or another machine for an instructor to see the correspondent environment around the
helicopter
Any other case when 3D visualization is necessary
Key points of our 3D visualization services:
HLA module for attaching to a virtual world as a viewpoint, with
support of HLA 2010 Evolved protocol
Support of huge territories visualization (hundreds of thousands of
square kms)
Visualization of a virtual model of a real world area. Maximum
similarity to the real world area
High Quality realistic rendering. Staff from S.T.A.L.K.E.R computer
game series
Display of terrain that is taken from real-world elevation matrixes
(like SRTM)
Atmospheric, daylight, meteorological, lighting and special effects
support
Modern Professional Simulators. 2013
Infrared and night vision goggles views support
Embedded 3D editor for natural and cultural objects creating, deleting
and positioning, terrain elevation modifications, forest and grass batch
placing, rivers and lakes creation with ripples, waves and water flow
defining etc.
PhysX-based physics modelling
Moving objects animation
Rich library of 3D objects such as trees, buildings, culture objects,
infantry, ground vehicles, helicopters, aircrafts etc. that are created by
our 3D designers
3D sound generation engine
26. OUR TECHNOLOGIES
As the founders of MPS company have 12+ years of software development experience, we’ve developed some principles to produce
high-quality extendable solutions in smaller time. Those principles are:
Productization approach
Rapid prototyping
Because of the productization approach we can
faster develop alpha or beta versions of our
software for customers. With this case the risks
of requirements misunderstanding are drastically minimized that leads to the minimization of
development terms and customer satisfaction.
This approach also leads to the early start use
of beta versions for integration development
with other simulation environment components.
It is another achievement of productization approach.
We can develop a simulator prototype in short time with
small amount of human resources. This allows reducing
time of the simulation development as the customer can
introduce important changes to requirements on early
stages.
So, we extract to reusable modules everything that
could be reused in other projects. These modules are
joined together into frameworks.
Reusing the code
Our core principle is to productize everything with modules that have maximal reusability of code and extendibility of
solution. New simulators are developed using skeleton and modules with similar functionalities of the previously developed
simulators. As all infrastructure code has already been developed, the developers have only to implement the specific logic
of an existing simulator for new simulators.
This allows us to reduce drastically the terms and costs of simulator projects, as we do not have to waste time to develop
things that are common for different simulators.
Besides, at the same time this is the only way to create a high-quality extendable solution. If new changes are introduced in
a simulator or a requirement has been changed at the time of the development process, we can make necessary changes
with minimal efforts.
The list of modules and frameworks we developed:
HLA Framework
Extended Digital Vector Maps Framework
On-Board Systems Framework
Remote Application Launcher Framework
On-Board Systems testing framework
Solution Testing Framework
Digital vector maps based world generator
Self-Made Data Framework (Plasticine)
Relief modelling framework
UI Framework
3D Visualization Framework
Automatic UI generation module
Virtual Reality Engine
Responsive Event-Driven User Interface Framework
AI (Artificial Intelligence) Engine
Exercises preparation center (Characteristics editor,
Environment editor, Mission editor)
Modern Professional Simulators. 2013