Empower your business with cutting-edge IoT solutions. Flexsin delivers expert IoT application development, seamlessly connecting devices for enhanced efficiency.
https://www.flexsin.com/internet-of-things.php
Azure Digital Twins is a PaaS service to build IoT solution on the Azure platform focused on state and on a spatial intelligence graph to model the devices, the sensors and the environment around them.
In this session we talk aboutthe spatial graph and the pipeline the data follow from generation in the device to the processing.
The document provides information about various career domains in computer science and engineering. It discusses topics like cloud computing, essential skills for cloud computing careers, popular cloud certifications and top recruiters. It also discusses mobile app development, roles of mobile app developers, benefits of mobile app development. Other topics covered include computer networks, types of networks, network security, career opportunities in network security. Career opportunities in various other domains like internet of things, deep learning, image processing, natural language processing, machine learning, data science, data analytics, blockchain, software testing and devops, artificial intelligence and robotics are also discussed. Essential skills, applications, learning techniques and roles for each domain are mentioned.
Human: Thank you for
In the second in our series of IoT presentations we will be providing more in-depth information on:
- How IoT can transform a business
- Key components of IoT solution
- How IoT projects work
- Do's and Don'ts in IoT projects
The document provides an introduction to IoT including definitions, characteristics, genesis, applications and challenges. It describes the physical design of IoT including IoT devices, protocols, and the generic block diagram of an IoT device. It also describes the logical design including IoT functional blocks, communication models like publish-subscribe, request-response, levels of IoT deployment from level 1 to 6, and enabling technologies.
Emerging trends in information technologyShiv Mehmi
This document summarizes emerging trends in information technology presented by Mr. Shiv Kumar. It outlines key trends for 2020 such as artificial intelligence, machine learning, robotic process automation, edge computing, virtual and augmented reality, cybersecurity, blockchain, and the internet of things. For each trend, applications and career opportunities are described. Artificial intelligence and machine learning are discussed in more detail, outlining how they are used across many industries to perform tasks faster and more accurately than humans.
The document discusses the Internet of Things (IoT), including what IoT is, common IoT applications and devices, IoT platforms, benefits of IoT, technical challenges, and conclusions. Specifically, IoT is defined as a network of physical devices embedded with sensors that can connect and exchange data without human interaction. IoT platforms enable organizations to manage connected devices and collect/analyze sensor data. Benefits include real-time visibility, reduced costs, improved efficiency and data-driven insights. Technical challenges include security, scalability, energy use, and lack of standardization.
Azure Digital Twins is a PaaS service to build IoT solution on the Azure platform focused on state and on a spatial intelligence graph to model the devices, the sensors and the environment around them.
In this session we talk aboutthe spatial graph and the pipeline the data follow from generation in the device to the processing.
The document provides information about various career domains in computer science and engineering. It discusses topics like cloud computing, essential skills for cloud computing careers, popular cloud certifications and top recruiters. It also discusses mobile app development, roles of mobile app developers, benefits of mobile app development. Other topics covered include computer networks, types of networks, network security, career opportunities in network security. Career opportunities in various other domains like internet of things, deep learning, image processing, natural language processing, machine learning, data science, data analytics, blockchain, software testing and devops, artificial intelligence and robotics are also discussed. Essential skills, applications, learning techniques and roles for each domain are mentioned.
Human: Thank you for
In the second in our series of IoT presentations we will be providing more in-depth information on:
- How IoT can transform a business
- Key components of IoT solution
- How IoT projects work
- Do's and Don'ts in IoT projects
The document provides an introduction to IoT including definitions, characteristics, genesis, applications and challenges. It describes the physical design of IoT including IoT devices, protocols, and the generic block diagram of an IoT device. It also describes the logical design including IoT functional blocks, communication models like publish-subscribe, request-response, levels of IoT deployment from level 1 to 6, and enabling technologies.
Emerging trends in information technologyShiv Mehmi
This document summarizes emerging trends in information technology presented by Mr. Shiv Kumar. It outlines key trends for 2020 such as artificial intelligence, machine learning, robotic process automation, edge computing, virtual and augmented reality, cybersecurity, blockchain, and the internet of things. For each trend, applications and career opportunities are described. Artificial intelligence and machine learning are discussed in more detail, outlining how they are used across many industries to perform tasks faster and more accurately than humans.
The document discusses the Internet of Things (IoT), including what IoT is, common IoT applications and devices, IoT platforms, benefits of IoT, technical challenges, and conclusions. Specifically, IoT is defined as a network of physical devices embedded with sensors that can connect and exchange data without human interaction. IoT platforms enable organizations to manage connected devices and collect/analyze sensor data. Benefits include real-time visibility, reduced costs, improved efficiency and data-driven insights. Technical challenges include security, scalability, energy use, and lack of standardization.
Internet of Things is the network of physical devices, objects, buildings and other products embedded with software, sensor and network connectivity which empowered these objects to gather and exchange data. IoT Training program is intended for the professionals with a little knowledge microcontrollers, electronic circuit design and programming languages. The training program helps you get familiarize with concepts and approaches to design, develop and deploy IoT solutions.
The document discusses Internet of Things (IoT) and its key aspects. It defines IoT as connecting physical objects through sensors and software to exchange data over the internet. IoT devices collect and share sensor data by connecting to gateways and the cloud to be analyzed with minimal human intervention. The document outlines technologies like sensors, connectivity, cloud computing and AI that enable IoT. It also discusses challenges of IoT like scalability, security, data analytics and interoperability.
This document discusses Internet of Things (IoT). It defines IoT and explains that IoT allows internet connectivity and computing capability to extend to various objects and devices. It describes key characteristics of IoT including use of sensors, connectivity models like device-to-device and device-to-cloud, applications across various domains like healthcare, transportation, utilities and more. It also outlines advantages and disadvantages of IoT as well as security and other challenges in deploying IoT solutions at scale.
The document discusses the key concepts and technologies related to Internet of Things (IoT). It begins with defining IoT as connecting physical devices embedded with sensors to the internet and to each other. This allows the devices to collect and exchange data and be controlled remotely. The document then covers some of the main components that enable IoT including hardware, software, communication protocols, software platforms, and data analytics. It provides conceptual frameworks that illustrate how different elements work together from data gathering by sensors to data analysis in the cloud.
This document provides an overview of Internet of Things (IoT) concepts and technologies. It defines IoT as the network of devices containing electronics, software, and connectivity that allows them to connect, interact and exchange data. The objectives are to impart knowledge on IoT, including sensors, actuators, controllers, applications in various industries, and a focus on industry applications. Key technologies that enable IoT are then discussed, including hardware, protocols, communication methods, software, and cloud/data center platforms. Specific development tools, APIs, and components for interfacing devices are also covered.
Fog Computing is a paradigm that extends Cloud computing and services to the edge of the network. Similar to Cloud, Fog provides data, compute, storage, and application services to end-users. The motivation of Fog computing lies in a series of real scenarios, such as Smart Grid, smart traffic lights in vehicular networks and software defined networks,
Fog computing is a term created by Cisco that refers to extending cloud computing to the edge of an enterprise's network.
Cisco introduced its fog computing vision in January 2014 as a way of bringing cloud computing capabilities to the edge of the network .
As the result, closer to the rapidly growing number of connected devices and applications that consume cloud services and generate increasingly massive amounts of data.
The document discusses the Internet of Things (IoT). It defines IoT as physical objects connected to the internet that can identify themselves and exchange data. Key points:
1. IoT relies on technologies like RFID, sensors, embedded intelligence, and nanotechnology to connect physical objects and exchange data.
2. IoT will create a network of networks connecting anything and anyone, anytime and anywhere. This will exponentially multiply connections and create entirely new dynamic networks.
3. Standardization, data protection, and privacy are major technological and social concerns for developing IoT. Architectures are being developed to support scalable and flexible IoT infrastructure while protecting users.
4. IoT has many applications and
Choosing the right Technologies for your next unicorn.Gladson DSouza
Startup India had its 5th Meetup on "Choosing The Right Technologies For Your Next Unicorn” on August, 05 2017!
We’re had the coolest techies speak about the latest and tested technologies used by the Best global tech enterprises.
From what to why for you to reach your ultimate Goal – to become a Unicorn!
We cover a range of topics like:
• Technologies that aren't disrupted
• Languages and frameworks
• Agile Project Management
• Web Security
• Automated Testing
• Tech stacks of Whatsapp, Uber, Facebook and other large enterprises
Why should you have attend?
• To understand the future of technology and which direction is recommended as of 2017
• Great Insights on present Latest Technologies
• Growing tech adoption trend globally and in India
• Ready case studies of present Unicorns.
Module 1 Internet of Things (2).ppt.pdf on iotspreya772
The document discusses wireless sensor networks (WSN) and the Internet of Things (IoT). It defines WSN as a group of dedicated sensors that monitor the environment and organize data at a central location, with nodes routing traffic to reach a sink node without direct internet connection. IoT is defined as any physical object with sensors, processing, and internet connectivity that can exchange data over the internet. Key differences discussed are that in WSN nodes route to a sink node, while in IoT devices connect directly to the internet. The document also provides examples of IoT applications and discusses IoT characteristics, architecture, protocols, and definitions.
Introduction to IoT Technologies - The need to know basicsJaco Bester
This document provides an introduction to Internet of Things (IoT) technologies. It discusses what IoT is, its application areas, and key aspects like platforms, security, analytics, device management, event stream processing, hardware, operating systems, standards, and low-power IoT networks. Specific technologies covered include Amazon Web Services IoT, Azure IoT Suite, Zigbee, Sigfox, and LoRa. The document aims to explain the basics needed to understand IoT.
CHAPTER 1-Introduction of Advanced Network Technology and Facilities.pptxFame22
This document discusses advanced network technology concepts including computer networks, data centers, cloud computing, software-defined networking, 5G, Wi-Fi 6, the Internet of Things (IoT), network automation, edge computing, and analytics. It describes how these technologies work and some of their advantages, such as improved communication and information sharing, more convenient resource access, lower costs, and automation of network tasks to improve efficiency.
The document discusses the key concepts of IoT including its definition, characteristics, physical and logical design, protocols, levels and deployment templates. Specifically, it defines IoT as a global network of devices with sensing/actuation and communication capabilities. It describes the various components of an IoT system including devices, resources, controllers, databases, services, analytics and applications. Finally, it outlines six levels of IoT systems with increasing complexity from single device/node to multiple interconnected devices and centralized control.
The document discusses the key features and architecture of the Internet of Things (IoT). It describes IoT as connecting physical devices through sensors and software to collect and exchange data over networks. The key features discussed are artificial intelligence, interconnectivity, distributed processing, heterogeneity, interoperability, scalability, security, and dynamic changes. The basic IoT architecture includes sensor networks, gateways, and communication technologies to connect devices. Sensor networks gather data from various sensors, while gateways act as an interface between sensor networks and cloud/application services. Common wireless technologies enabling IoT device connectivity include RFID, WLAN, and short-range wireless protocols.
IoT Introduction Architecture and ApplicationsThe IOT Academy
The document provides an overview of the Internet of Things (IoT). It discusses IoT architecture including components like sensors, gateways, cloud platforms and applications. It outlines various IoT applications in different domains like manufacturing, healthcare, transportation etc. The document also discusses challenges in IoT deployment related to interoperability, security and skills. It highlights the importance of skills like embedded systems, cloud computing, data analytics for jobs in IoT domain. Finally, it gives examples of how a company called UCT is applying IoT in products like street lighting, irrigation and building automation.
The document discusses the key features and architecture of the Internet of Things (IoT). It describes IoT as connecting physical devices through sensors and software to collect and exchange data over networks. The key features discussed are artificial intelligence, interconnectivity, distributed processing, heterogeneity, interoperability, scalability, security, and dynamic changes. The basic IoT architecture includes sensor networks, gateways, and communication technologies to connect devices. Sensor networks gather data from various sensors, while gateways act as an interface between sensor networks and cloud/application services. Common wireless technologies enabling IoT device connectivity include RFID, WLAN, and short-range wireless protocols.
Internet of Things ( IoT) is a happening phenomenon today. It is sweeping across all spheres of human life- business, agriculture, education and more. It provides a a fertile ground for research and innovation. This presentation covers major areas of research both current and future expected trends
The document outlines the syllabus for a course on Internet of Things (IoT) essentials. It covers 5 units: (1) an introduction to IoT including definitions, characteristics and protocols; (2) IoT design methodology and architecture; (3) elements and challenges of building IoT devices; (4) cloud offerings for IoT; and (5) applications of IoT such as retail, healthcare, transportation and smart cities. It also lists experiments and references books related to learning IoT.
The document provides an overview of Internet of Things (IoT) concepts, including definitions, visions, frameworks and components. It discusses the basic building blocks of an IoT system including physical objects, sensors, controllers and connectivity to the internet. It also describes diverse IoT technologies related to hardware, software, communication protocols, platforms and applications. Specific examples covered include smart homes, machine-to-machine systems, industrial IoT and smart cities.
Empowering Business with Mobile App DevelopmentFlexsin
Short conclusion emphasizing Flexsin's expertise and inviting connection for further discussion.
https://www.flexsin.com/mobile-application-development/
Internet of Things is the network of physical devices, objects, buildings and other products embedded with software, sensor and network connectivity which empowered these objects to gather and exchange data. IoT Training program is intended for the professionals with a little knowledge microcontrollers, electronic circuit design and programming languages. The training program helps you get familiarize with concepts and approaches to design, develop and deploy IoT solutions.
The document discusses Internet of Things (IoT) and its key aspects. It defines IoT as connecting physical objects through sensors and software to exchange data over the internet. IoT devices collect and share sensor data by connecting to gateways and the cloud to be analyzed with minimal human intervention. The document outlines technologies like sensors, connectivity, cloud computing and AI that enable IoT. It also discusses challenges of IoT like scalability, security, data analytics and interoperability.
This document discusses Internet of Things (IoT). It defines IoT and explains that IoT allows internet connectivity and computing capability to extend to various objects and devices. It describes key characteristics of IoT including use of sensors, connectivity models like device-to-device and device-to-cloud, applications across various domains like healthcare, transportation, utilities and more. It also outlines advantages and disadvantages of IoT as well as security and other challenges in deploying IoT solutions at scale.
The document discusses the key concepts and technologies related to Internet of Things (IoT). It begins with defining IoT as connecting physical devices embedded with sensors to the internet and to each other. This allows the devices to collect and exchange data and be controlled remotely. The document then covers some of the main components that enable IoT including hardware, software, communication protocols, software platforms, and data analytics. It provides conceptual frameworks that illustrate how different elements work together from data gathering by sensors to data analysis in the cloud.
This document provides an overview of Internet of Things (IoT) concepts and technologies. It defines IoT as the network of devices containing electronics, software, and connectivity that allows them to connect, interact and exchange data. The objectives are to impart knowledge on IoT, including sensors, actuators, controllers, applications in various industries, and a focus on industry applications. Key technologies that enable IoT are then discussed, including hardware, protocols, communication methods, software, and cloud/data center platforms. Specific development tools, APIs, and components for interfacing devices are also covered.
Fog Computing is a paradigm that extends Cloud computing and services to the edge of the network. Similar to Cloud, Fog provides data, compute, storage, and application services to end-users. The motivation of Fog computing lies in a series of real scenarios, such as Smart Grid, smart traffic lights in vehicular networks and software defined networks,
Fog computing is a term created by Cisco that refers to extending cloud computing to the edge of an enterprise's network.
Cisco introduced its fog computing vision in January 2014 as a way of bringing cloud computing capabilities to the edge of the network .
As the result, closer to the rapidly growing number of connected devices and applications that consume cloud services and generate increasingly massive amounts of data.
The document discusses the Internet of Things (IoT). It defines IoT as physical objects connected to the internet that can identify themselves and exchange data. Key points:
1. IoT relies on technologies like RFID, sensors, embedded intelligence, and nanotechnology to connect physical objects and exchange data.
2. IoT will create a network of networks connecting anything and anyone, anytime and anywhere. This will exponentially multiply connections and create entirely new dynamic networks.
3. Standardization, data protection, and privacy are major technological and social concerns for developing IoT. Architectures are being developed to support scalable and flexible IoT infrastructure while protecting users.
4. IoT has many applications and
Choosing the right Technologies for your next unicorn.Gladson DSouza
Startup India had its 5th Meetup on "Choosing The Right Technologies For Your Next Unicorn” on August, 05 2017!
We’re had the coolest techies speak about the latest and tested technologies used by the Best global tech enterprises.
From what to why for you to reach your ultimate Goal – to become a Unicorn!
We cover a range of topics like:
• Technologies that aren't disrupted
• Languages and frameworks
• Agile Project Management
• Web Security
• Automated Testing
• Tech stacks of Whatsapp, Uber, Facebook and other large enterprises
Why should you have attend?
• To understand the future of technology and which direction is recommended as of 2017
• Great Insights on present Latest Technologies
• Growing tech adoption trend globally and in India
• Ready case studies of present Unicorns.
Module 1 Internet of Things (2).ppt.pdf on iotspreya772
The document discusses wireless sensor networks (WSN) and the Internet of Things (IoT). It defines WSN as a group of dedicated sensors that monitor the environment and organize data at a central location, with nodes routing traffic to reach a sink node without direct internet connection. IoT is defined as any physical object with sensors, processing, and internet connectivity that can exchange data over the internet. Key differences discussed are that in WSN nodes route to a sink node, while in IoT devices connect directly to the internet. The document also provides examples of IoT applications and discusses IoT characteristics, architecture, protocols, and definitions.
Introduction to IoT Technologies - The need to know basicsJaco Bester
This document provides an introduction to Internet of Things (IoT) technologies. It discusses what IoT is, its application areas, and key aspects like platforms, security, analytics, device management, event stream processing, hardware, operating systems, standards, and low-power IoT networks. Specific technologies covered include Amazon Web Services IoT, Azure IoT Suite, Zigbee, Sigfox, and LoRa. The document aims to explain the basics needed to understand IoT.
CHAPTER 1-Introduction of Advanced Network Technology and Facilities.pptxFame22
This document discusses advanced network technology concepts including computer networks, data centers, cloud computing, software-defined networking, 5G, Wi-Fi 6, the Internet of Things (IoT), network automation, edge computing, and analytics. It describes how these technologies work and some of their advantages, such as improved communication and information sharing, more convenient resource access, lower costs, and automation of network tasks to improve efficiency.
The document discusses the key concepts of IoT including its definition, characteristics, physical and logical design, protocols, levels and deployment templates. Specifically, it defines IoT as a global network of devices with sensing/actuation and communication capabilities. It describes the various components of an IoT system including devices, resources, controllers, databases, services, analytics and applications. Finally, it outlines six levels of IoT systems with increasing complexity from single device/node to multiple interconnected devices and centralized control.
The document discusses the key features and architecture of the Internet of Things (IoT). It describes IoT as connecting physical devices through sensors and software to collect and exchange data over networks. The key features discussed are artificial intelligence, interconnectivity, distributed processing, heterogeneity, interoperability, scalability, security, and dynamic changes. The basic IoT architecture includes sensor networks, gateways, and communication technologies to connect devices. Sensor networks gather data from various sensors, while gateways act as an interface between sensor networks and cloud/application services. Common wireless technologies enabling IoT device connectivity include RFID, WLAN, and short-range wireless protocols.
IoT Introduction Architecture and ApplicationsThe IOT Academy
The document provides an overview of the Internet of Things (IoT). It discusses IoT architecture including components like sensors, gateways, cloud platforms and applications. It outlines various IoT applications in different domains like manufacturing, healthcare, transportation etc. The document also discusses challenges in IoT deployment related to interoperability, security and skills. It highlights the importance of skills like embedded systems, cloud computing, data analytics for jobs in IoT domain. Finally, it gives examples of how a company called UCT is applying IoT in products like street lighting, irrigation and building automation.
The document discusses the key features and architecture of the Internet of Things (IoT). It describes IoT as connecting physical devices through sensors and software to collect and exchange data over networks. The key features discussed are artificial intelligence, interconnectivity, distributed processing, heterogeneity, interoperability, scalability, security, and dynamic changes. The basic IoT architecture includes sensor networks, gateways, and communication technologies to connect devices. Sensor networks gather data from various sensors, while gateways act as an interface between sensor networks and cloud/application services. Common wireless technologies enabling IoT device connectivity include RFID, WLAN, and short-range wireless protocols.
Internet of Things ( IoT) is a happening phenomenon today. It is sweeping across all spheres of human life- business, agriculture, education and more. It provides a a fertile ground for research and innovation. This presentation covers major areas of research both current and future expected trends
The document outlines the syllabus for a course on Internet of Things (IoT) essentials. It covers 5 units: (1) an introduction to IoT including definitions, characteristics and protocols; (2) IoT design methodology and architecture; (3) elements and challenges of building IoT devices; (4) cloud offerings for IoT; and (5) applications of IoT such as retail, healthcare, transportation and smart cities. It also lists experiments and references books related to learning IoT.
The document provides an overview of Internet of Things (IoT) concepts, including definitions, visions, frameworks and components. It discusses the basic building blocks of an IoT system including physical objects, sensors, controllers and connectivity to the internet. It also describes diverse IoT technologies related to hardware, software, communication protocols, platforms and applications. Specific examples covered include smart homes, machine-to-machine systems, industrial IoT and smart cities.
Empowering Business with Mobile App DevelopmentFlexsin
Short conclusion emphasizing Flexsin's expertise and inviting connection for further discussion.
https://www.flexsin.com/mobile-application-development/
Discover the Life Changing Advantages of Implementing Salesforce in Your Busi...Flexsin
Discover how integrating Salesforce can revolutionize your business. Boost productivity, fortify client ties, and secure long-term success with Flexsin's expert help.
https://www.flexsin.com/software-web-development/web-development/
Effectiveness and Efficiency Recognise the Value of AI & ML for Organisations...Flexsin
Learn about AI & ML importance for businesses. Implement them with Flexsin's AI development services & consulting for efficiency, engagement, and insights.
https://www.flexsin.com/artificial-intelligence/
Empowering Mobile App Development SolutionsFlexsin
Flexsin delivers cutting-edge mobile app development solutions, empowering businesses to thrive in the digital landscape.
https://www.flexsin.com/mobile-application-development/
Empower Your Business with Web Development SolutionsFlexsin
Flexsin is a leading web development company offering tailored solutions for enterprises and SMEs. We specialize in designing, developing, and deploying custom web applications to drive business growth.
https://www.flexsin.com/software-web-development/web-development/
Understand the Possible Obstacles to DevOps ImplementationFlexsin
DevOps maximizes efficiency but poses challenges like cultural shifts, complexity, time constraints, and tool integration. Flexsin offers solutions.
https://www.flexsin.com/cloud-devops/devops/
Services for developing mobile apps to help firms stay competitiveFlexsin
Mobile app development is crucial for businesses, enhancing brand visibility and customer engagement. We offer iOS, Android, and hybrid solutions for seamless experiences.
https://www.flexsin.com/mobile-application-development/
Enabling change with digital engineering services and solutionsFlexsin
Crafting immersive digital experiences, Flexsin Technologies offers cutting-edge digital engineering solutions for rapid innovation and enhanced security.
https://www.flexsin.com/digital-engineering/
Unlocking Business Potential with Blockchain Development ServicesvicesFlexsin
Flexsin offers expert Blockchain Development Services, specializing in decentralized technologies like Hyperledger, Ethereum, and more. From consulting to implementation, we empower businesses to thrive in the blockchain era.
flexsin.com/blockchain/blockchain-development/
Empowering Digital Transformation with Flexsin's DevOps Consulting.Flexsin
Flexsin offers expert DevOps consulting services, optimizing SDLCs, enhancing site reliability, and automating delivery cycles. Drive digital transformation with our tailored solutions and accelerate your business growth.
https://www.flexsin.com/cloud-devops/devops/
Maximizing Potential: The Edge of Engaging an ASP.NET Development FirmFlexsin
Unlock business potential with ASP.NET development firms like Flexsin. Benefit from expertise, cost savings, scalability, and ongoing support.
https://www.flexsin.com/microsoft/aspdotnet-development/
_Empowering Business Growth with Tailored Solutions.Flexsin
Flexsin specializes in custom software development, crafting tailored solutions to meet diverse business needs. With expertise in building, implementing, and maintaining applications, we drive innovation and accelerate business growth.
https://www.flexsin.com/software-web-development/software-development/
Key Considerations When Selecting Blockchain Development ServicesFlexsin
Unlock Blockchain Potential: Choose Flexsin for Top-tier Development Services. Propel Your Vision into Reality with Expertise and Innovation.
https://www.flexsin.com/blockchain/blockchain-development/
Forward Bound Mobile App Development Services Pioneering TomorrowFlexsin
Unlock innovation with mobile app development services. Tailored solutions for businesses and users, shaping the digital landscape
https://www.flexsin.com/mobile-application-development/
Elevate Your Software Delivery Partnering with a DevOps Consulting Firm.Flexsin
In the realm of software development, DevOps transforms deployment and management. DevOps consulting firms streamline processes, fostering innovation and collaboration for organizational success.
https://www.flexsin.com/cloud-devops/devops/
Experience Design Services: Innovating User Interactions for TomorrowFlexsin
Experience design (XD) services revolutionize user experiences, blending aesthetics, functionality, and psychology. They're essential for businesses aiming to excel in today's digital landscape. Flexsin delivers tailored solutions for superior engagement.
https://www.flexsin.com/software-web-development/user-experience-design/
Maximizing Your Software Development Potential: Exploring Benefits and Select...Flexsin
Unlock the power of software development services: enhanced project management, scalability, and quality control. Choose Flexsin for advanced solutions within your budget.
https://www.flexsin.com/software-web-development/software-development/
Data automation services,Transform Your Business with Flexsin.Flexsin
Flexsin offers cutting-edge data automation services, streamlining processes and delivering actionable insights. Leveraging advanced technologies like AI and ML, we drive efficiency and innovation for businesses.
https://www.flexsin.com/data-analytics-automation/
Baha Majid WCA4Z IBM Z Customer Council Boston June 2024.pdfBaha Majid
IBM watsonx Code Assistant for Z, our latest Generative AI-assisted mainframe application modernization solution. Mainframe (IBM Z) application modernization is a topic that every mainframe client is addressing to various degrees today, driven largely from digital transformation. With generative AI comes the opportunity to reimagine the mainframe application modernization experience. Infusing generative AI will enable speed and trust, help de-risk, and lower total costs associated with heavy-lifting application modernization initiatives. This document provides an overview of the IBM watsonx Code Assistant for Z which uses the power of generative AI to make it easier for developers to selectively modernize COBOL business services while maintaining mainframe qualities of service.
Unlock the Secrets to Effortless Video Creation with Invideo: Your Ultimate G...The Third Creative Media
"Navigating Invideo: A Comprehensive Guide" is an essential resource for anyone looking to master Invideo, an AI-powered video creation tool. This guide provides step-by-step instructions, helpful tips, and comparisons with other AI video creators. Whether you're a beginner or an experienced video editor, you'll find valuable insights to enhance your video projects and bring your creative ideas to life.
Photoshop Tutorial for Beginners (2024 Edition)alowpalsadig
Photoshop Tutorial for Beginners (2024 Edition)
Explore the evolution of programming and software development and design in 2024. Discover emerging trends shaping the future of coding in our insightful analysis."
Here's an overview:Introduction: The Evolution of Programming and Software DevelopmentThe Rise of Artificial Intelligence and Machine Learning in CodingAdopting Low-Code and No-Code PlatformsQuantum Computing: Entering the Software Development MainstreamIntegration of DevOps with Machine Learning: MLOpsAdvancements in Cybersecurity PracticesThe Growth of Edge ComputingEmerging Programming Languages and FrameworksSoftware Development Ethics and AI RegulationSustainability in Software EngineeringThe Future Workforce: Remote and Distributed TeamsConclusion: Adapting to the Changing Software Development LandscapeIntroduction: The Evolution of Programming and Software Development
Photoshop Tutorial for Beginners (2024 Edition)Explore the evolution of programming and software development and design in 2024. Discover emerging trends shaping the future of coding in our insightful analysis."Here's an overview:Introduction: The Evolution of Programming and Software DevelopmentThe Rise of Artificial Intelligence and Machine Learning in CodingAdopting Low-Code and No-Code PlatformsQuantum Computing: Entering the Software Development MainstreamIntegration of DevOps with Machine Learning: MLOpsAdvancements in Cybersecurity PracticesThe Growth of Edge ComputingEmerging Programming Languages and FrameworksSoftware Development Ethics and AI RegulationSustainability in Software EngineeringThe Future Workforce: Remote and Distributed TeamsConclusion: Adapting to the Changing Software Development LandscapeIntroduction: The Evolution of Programming and Software Development
The importance of developing and designing programming in 2024
Programming design and development represents a vital step in keeping pace with technological advancements and meeting ever-changing market needs. This course is intended for anyone who wants to understand the fundamental importance of software development and design, whether you are a beginner or a professional seeking to update your knowledge.
Course objectives:
1. **Learn about the basics of software development:
- Understanding software development processes and tools.
- Identify the role of programmers and designers in software projects.
2. Understanding the software design process:
- Learn about the principles of good software design.
- Discussing common design patterns such as Object-Oriented Design.
3. The importance of user experience (UX) in modern software:
- Explore how user experience can improve software acceptance and usability.
- Tools and techniques to analyze and improve user experience.
4. Increase efficiency and productivity through modern development tools:
- Access to the latest programming tools and languages used in the industry.
- Study live examples of applications
Ensuring Efficiency and Speed with Practical Solutions for Clinical OperationsOnePlan Solutions
Clinical operations professionals encounter unique challenges. Balancing regulatory requirements, tight timelines, and the need for cross-functional collaboration can create significant internal pressures. Our upcoming webinar will introduce key strategies and tools to streamline and enhance clinical development processes, helping you overcome these challenges.
The Power of Visual Regression Testing_ Why It Is Critical for Enterprise App...kalichargn70th171
Visual testing plays a vital role in ensuring that software products meet the aesthetic requirements specified by clients in functional and non-functional specifications. In today's highly competitive digital landscape, users expect a seamless and visually appealing online experience. Visual testing, also known as automated UI testing or visual regression testing, verifies the accuracy of the visual elements that users interact with.
Hyperledger Besu 빨리 따라하기 (Private Networks)wonyong hwang
Hyperledger Besu의 Private Networks에서 진행하는 실습입니다. 주요 내용은 공식 문서인https://besu.hyperledger.org/private-networks/tutorials 의 내용에서 발췌하였으며, Privacy Enabled Network와 Permissioned Network까지 다루고 있습니다.
This is a training session at Hyperledger Besu's Private Networks, with the main content excerpts from the official document besu.hyperledger.org/private-networks/tutorials and even covers the Private Enabled and Permitted Networks.
Why Apache Kafka Clusters Are Like Galaxies (And Other Cosmic Kafka Quandarie...Paul Brebner
Closing talk for the Performance Engineering track at Community Over Code EU (Bratislava, Slovakia, June 5 2024) https://eu.communityovercode.org/sessions/2024/why-apache-kafka-clusters-are-like-galaxies-and-other-cosmic-kafka-quandaries-explored/ Instaclustr (now part of NetApp) manages 100s of Apache Kafka clusters of many different sizes, for a variety of use cases and customers. For the last 7 years I’ve been focused outwardly on exploring Kafka application development challenges, but recently I decided to look inward and see what I could discover about the performance, scalability and resource characteristics of the Kafka clusters themselves. Using a suite of Performance Engineering techniques, I will reveal some surprising discoveries about cosmic Kafka mysteries in our data centres, related to: cluster sizes and distribution (using Zipf’s Law), horizontal vs. vertical scalability, and predicting Kafka performance using metrics, modelling and regression techniques. These insights are relevant to Kafka developers and operators.
Streamlining End-to-End Testing Automation with Azure DevOps Build & Release Pipelines
Automating end-to-end (e2e) test for Android and iOS native apps, and web apps, within Azure build and release pipelines, poses several challenges. This session dives into the key challenges and the repeatable solutions implemented across multiple teams at a leading Indian telecom disruptor, renowned for its affordable 4G/5G services, digital platforms, and broadband connectivity.
Challenge #1. Ensuring Test Environment Consistency: Establishing a standardized test execution environment across hundreds of Azure DevOps agents is crucial for achieving dependable testing results. This uniformity must seamlessly span from Build pipelines to various stages of the Release pipeline.
Challenge #2. Coordinated Test Execution Across Environments: Executing distinct subsets of tests using the same automation framework across diverse environments, such as the build pipeline and specific stages of the Release Pipeline, demands flexible and cohesive approaches.
Challenge #3. Testing on Linux-based Azure DevOps Agents: Conducting tests, particularly for web and native apps, on Azure DevOps Linux agents lacking browser or device connectivity presents specific challenges in attaining thorough testing coverage.
This session delves into how these challenges were addressed through:
1. Automate the setup of essential dependencies to ensure a consistent testing environment.
2. Create standardized templates for executing API tests, API workflow tests, and end-to-end tests in the Build pipeline, streamlining the testing process.
3. Implement task groups in Release pipeline stages to facilitate the execution of tests, ensuring consistency and efficiency across deployment phases.
4. Deploy browsers within Docker containers for web application testing, enhancing portability and scalability of testing environments.
5. Leverage diverse device farms dedicated to Android, iOS, and browser testing to cover a wide range of platforms and devices.
6. Integrate AI technology, such as Applitools Visual AI and Ultrafast Grid, to automate test execution and validation, improving accuracy and efficiency.
7. Utilize AI/ML-powered central test automation reporting server through platforms like reportportal.io, providing consolidated and real-time insights into test performance and issues.
These solutions not only facilitate comprehensive testing across platforms but also promote the principles of shift-left testing, enabling early feedback, implementing quality gates, and ensuring repeatability. By adopting these techniques, teams can effectively automate and execute tests, accelerating software delivery while upholding high-quality standards across Android, iOS, and web applications.
Building API data products on top of your real-time data infrastructureconfluent
This talk and live demonstration will examine how Confluent and Gravitee.io integrate to unlock value from streaming data through API products.
You will learn how data owners and API providers can document, secure data products on top of Confluent brokers, including schema validation, topic routing and message filtering.
You will also see how data and API consumers can discover and subscribe to products in a developer portal, as well as how they can integrate with Confluent topics through protocols like REST, Websockets, Server-sent Events and Webhooks.
Whether you want to monetize your real-time data, enable new integrations with partners, or provide self-service access to topics through various protocols, this webinar is for you!
Boost Your Savings with These Money Management AppsJhone kinadey
A money management app can transform your financial life by tracking expenses, creating budgets, and setting financial goals. These apps offer features like real-time expense tracking, bill reminders, and personalized insights to help you save and manage money effectively. With a user-friendly interface, they simplify financial planning, making it easier to stay on top of your finances and achieve long-term financial stability.
The Role of DevOps in Digital Transformation.pdfmohitd6
DevOps plays a crucial role in driving digital transformation by fostering a collaborative culture between development and operations teams. This approach enhances the speed and efficiency of software delivery, ensuring quicker deployment of new features and updates. DevOps practices like continuous integration and continuous delivery (CI/CD) streamline workflows, reduce manual errors, and increase the overall reliability of software systems. By leveraging automation and monitoring tools, organizations can improve system stability, enhance customer experiences, and maintain a competitive edge. Ultimately, DevOps is pivotal in enabling businesses to innovate rapidly, respond to market changes, and achieve their digital transformation goals.
The Comprehensive Guide to Validating Audio-Visual Performances.pdfkalichargn70th171
Ensuring the optimal performance of your audio-visual (AV) equipment is crucial for delivering exceptional experiences. AV performance validation is a critical process that verifies the quality and functionality of your AV setup. Whether you're a content creator, a business conducting webinars, or a homeowner creating a home theater, validating your AV performance is essential.
Implementing Odoo, a robust and all-inclusive business management software, can significantly improve your organisation. To get the most out of it and ensure a smooth implementation, it is important to have a strategic plan. This blog shares some essential tips to help you with successful Odoo ERP implementation. From planning and customisation to training and support, this blog outlines some expert advice that will guide you through the process confidently. It is true that adopting a new software can be challenging, and hence, this post has tailored these tips to help you avoid common mistakes and achieve the best results. Whether you run a small business or a large enterprise, these tips will help you streamline operations, boost productivity, and drive growth. Whether you are new to Odoo or looking to improve your current setup, it is essential to learn the key strategies for a successful Odoo implementation. Implementing Odoo doesn’t have to be difficult. With the right approach and guidance, you can use this software to elevate your business. Read on to discover the secrets of a successful Odoo implementation.
Why is successful Odoo implementation crucial?
Implementing Odoo effectively can transform your business by making processes smoother, increasing efficiency, and providing useful insights. It helps align your operations with best practices, boosting productivity and aiding better decision-making. A well-executed implementation ensures you get the most out of your investment, while a poor one can cause disruptions, higher costs, and frustration among employees.
A Comprehensive Guide on Implementing Real-World Mobile Testing Strategies fo...kalichargn70th171
In today's fiercely competitive mobile app market, the role of the QA team is pivotal for continuous improvement and sustained success. Effective testing strategies are essential to navigate the challenges confidently and precisely. Ensuring the perfection of mobile apps before they reach end-users requires thoughtful decisions in the testing plan.
2. • Definition: "Internet of Things (IoT)
refers to the network of
interconnected physical devices
that communicate and exchange
data."
• Importance: "Revolutionizing
industries, enhancing efficiency,
and enabling smart solutions.
3. • Sensors: "Collect data from the
environment."
• Connectivity: "Communication
protocols for seamless data
transfer."
• Data Processing: "Analyze and
make sense of the collected
data."
• Actuators: "Execute actions
based on processed data.
4. • Planning: "Define objectives,
requirements, and scope of the IoT
application."
• Design: "Create the architecture, user
interface, and select appropriate
technologies."
• Development: "Code the application
and integrate necessary hardware
components."
• Testing: "Thoroughly test for
functionality, security, and
performance.
5. • Languages: "Python, JavaScript,
C++, and Java are popular for IoT
development."
• Tools: "Arduino, Raspberry Pi, and
Node-RED for hardware
integration."
6. • Importance: "Securing data, devices, and communication to
prevent cyber threats."
• Best Practices: "Encryption, secure authentication, and regular
software updates."
7. • Smart Homes: "Connected
devices for automation and
security."
• Industrial IoT (IIoT): "Enhancing
efficiency and monitoring in
manufacturing."
• Healthcare: "Remote patient
monitoring and smart medical
devices."
• Agriculture: "Precision farming
and crop monitoring."
8. • Edge Computing: "Processing data closer to the source for faster
response times."
• 5G Integration: "High-speed, low-latency connectivity for IoT
devices."
• Artificial Intelligence: "Enhancing decision-making through
machine learning."