This resume is for Bello Ibrahim Djoulde, an industrial technology graduate from Central Washington University. He has a strong background in mechanical engineering technology and relevant coursework. His education experiences include designing a remote controlled car using CAD software and 3D printing, assisting with a robotics event, and building mechanical parts for class projects. He is fluent in multiple languages and proficient in CAD and office software. He has machining experience and seeks to utilize his problem-solving and planning skills.
This is a one day workshop presentation, primarily on the new OMG Foundational UML specification for executable model semantics, but also discussing extensions for executable SysML (System Modeling Language) models.
The document discusses Unified Modeling Language (UML), which is a general purpose modeling language used to specify, visualize, construct and document software systems. UML captures both the static structure and dynamic behavior of a system. It includes structural diagrams like class and component diagrams to show system architecture, and behavioral diagrams like activity and sequence diagrams to describe system functionality. UML is widely used for software design, communication, requirements analysis and documentation across various application domains.
This document provides an overview and tutorial on SysML (Systems Modeling Language). It discusses that SysML is a modeling language used for systems engineering that extends the Unified Modeling Language (UML). The tutorial covers topics such as the history and purpose of SysML, the language architecture, modeling elements, compliance with UML, diagram elements like block definition diagrams and internal block diagrams, and more. It is intended to help those new to SysML understand the basics of the modeling framework and language.
When talking about modeling, I think there will be a bundle of terms that will come to our mind, UML, domain driven development, DSL, forward/reverse enginerring, MDD, MDA, BPMN. These technology or methodology have been there for years; And obviously, modeling has proven itself to provide value by improving communication, business-alignment, quality, and productivity. Its applicability includes a number of disciplines such as analysis, design, or development. But why aren’t we all doing Model Driven Development yet?
Imran Sarwar Bajwa, M. Abbas Choudhary [2006], "Natural Language Processing based Automated System for UML Diagrams Generation", in Saudi 18th National Conference on Computer Application, 2006, (18th NCCA) Riyadh, Kingdom of Saudi Arabia pp:171-176
This resume is for Bello Ibrahim Djoulde, an industrial technology graduate from Central Washington University. He has a strong background in mechanical engineering technology and relevant coursework. His education experiences include designing a remote controlled car using CAD software and 3D printing, assisting with a robotics event, and building mechanical parts for class projects. He is fluent in multiple languages and proficient in CAD and office software. He has machining experience and seeks to utilize his problem-solving and planning skills.
This is a one day workshop presentation, primarily on the new OMG Foundational UML specification for executable model semantics, but also discussing extensions for executable SysML (System Modeling Language) models.
The document discusses Unified Modeling Language (UML), which is a general purpose modeling language used to specify, visualize, construct and document software systems. UML captures both the static structure and dynamic behavior of a system. It includes structural diagrams like class and component diagrams to show system architecture, and behavioral diagrams like activity and sequence diagrams to describe system functionality. UML is widely used for software design, communication, requirements analysis and documentation across various application domains.
This document provides an overview and tutorial on SysML (Systems Modeling Language). It discusses that SysML is a modeling language used for systems engineering that extends the Unified Modeling Language (UML). The tutorial covers topics such as the history and purpose of SysML, the language architecture, modeling elements, compliance with UML, diagram elements like block definition diagrams and internal block diagrams, and more. It is intended to help those new to SysML understand the basics of the modeling framework and language.
When talking about modeling, I think there will be a bundle of terms that will come to our mind, UML, domain driven development, DSL, forward/reverse enginerring, MDD, MDA, BPMN. These technology or methodology have been there for years; And obviously, modeling has proven itself to provide value by improving communication, business-alignment, quality, and productivity. Its applicability includes a number of disciplines such as analysis, design, or development. But why aren’t we all doing Model Driven Development yet?
Imran Sarwar Bajwa, M. Abbas Choudhary [2006], "Natural Language Processing based Automated System for UML Diagrams Generation", in Saudi 18th National Conference on Computer Application, 2006, (18th NCCA) Riyadh, Kingdom of Saudi Arabia pp:171-176
an analysis and new methodology for reverse engineering of uml behavioralINFOGAIN PUBLICATION
The emergence of Unified Modeling Language (UML) as a standard for modeling systems has encouraged the use of automated software tools that facilitate the development process from analysis through coding. Reverse Engineering has become a viable method to measure an existing system and reconstruct the necessary model from its original. The Reverse Engineering of behavioral models consists in extracting high-level models that help understand the behavior of existing software systems. In this paper we present an ongoing work on extracting UML diagrams from object-oriented programming languages. we propose an approach for the reverse engineering of UML behavior from the analysis of execution traces produced dynamically by an object-oriented application using formal and semi-formal techniques for modeling the dynamic behavior of a system. Our methods show that this approach can produce UML behavioral diagrams in reasonable time and suggest that these diagrams are helpful in understanding the behavior of the underlying application.
What is UML (Unified Modeling Language)?Eliza Wright
What is UML? Read our guide to learn all the answers, including which diagrams are made with the Unified Modeling Language and how you can create UML diagrams of your own.
UML (Unified Modeling Language) is a standardized modeling language used to visualize, specify, construct and document artifacts of a software system. It can be used to model both software and non-software systems. The document discusses the history, features, diagrams and real-world applications of UML. It also covers advantages like being easy to understand and standardized, as well as disadvantages such as difficulty synchronizing models with code. Finally, it briefly describes several open source UML modeling tools.
The document provides an overview of the Unified Modeling Language (UML) which is a tool used for modeling software systems and business processes. It discusses the goals of UML which are to visualize, specify, and document systems. The presentation then covers the different types of modeling in UML including structural and behavioral, the basic building blocks of UML diagrams such as boxes, messages, actions, and relationships. It concludes by providing a class diagram example and references.
This document provides an introduction to the Unified Modeling Language (UML). It outlines the course information for an Introduction to UML course, including aims, objectives, assessment, and recommended books. It then describes what UML is and lists common UML tools. The document explains that UML defines 13 types of diagrams divided into categories for structure, behavior, and interaction. Examples of different UML diagrams are provided, including class, object, component, and use case diagrams. Guidelines are given for modeling with UML, including the development process, types of models, and use case modeling syntax, semantics, and examples.
Executable UML (xUML) provides an executable version of UML with a precisely defined semantics for actions. xUML supports the separation of business logic from platform technology through platform independent models (PIMs) that can be automatically transformed into platform specific models (PSMs) through model mappings. Tools such as Kennedy Carter's iUML and Accelerated Technology's BridgePoint allow developers to simulate and test xUML models prior to translation into executable code.
UML (Unified Modeling Language) is a modeling language used to visually represent systems through diagrams. There are several types of UML diagrams used for different purposes, including behavioral diagrams like activity diagrams and sequence diagrams, and structural diagrams like class diagrams. An example use case diagram is provided to show how UML can model an ATM machine system with actors like customers and technicians, and use cases like checking balances and withdrawing cash. Web references are also included for more information on UML diagram types and examples.
RESILIENT INTERFACE DESIGN FOR SAFETY-CRITICAL EMBEDDED AUTOMOTIVE SOFTWAREcsandit
The replacement of the former, purely mechanical, functionality with mechatronics-based solutions, the introduction of new propulsion technologies, and the connection of cars to their environment are just a few reasons for the continuously increasing electrical and/or electronic
system (E/E system) complexity in modern passenger cars. Smart methodologies and techniques have been introduced in system development to cope with these new challenges. A topic that is often neglected is the definition of the interface between the hardware and software subsystems.
However, during the development of safety-critical E/E systems, according to the automotive
functional safety standard ISO 26262, an unambiguous definition of the hardware-software interface (HSI) has become vital. This paper presents a domain-specific modelling approach for mechatronic systems with an integrated hardware-software interface definition feature. The
newly developed model-based domain-specific language is tailored to the needs of mechatronic system engineers and supports the system’s architectural design including the interface definition, with a special focus on safety-criticality.
RESILIENT INTERFACE DESIGN FOR SAFETY-CRITICAL EMBEDDED AUTOMOTIVE SOFTWAREcscpconf
The replacement of the former, purely mechanical, functionality with mechatronics-based solutions, the introduction of new propulsion technologies, and the connection of cars to their environment are just a few reasons for the continuously increasing electrical and/or electronic system (E/E system) complexity in modern passenger cars. Smart methodologies and techniques have been introduced in system development to cope with these new challenges. A topic that is often neglected is the definition of the interface between the hardware and software subsystems. However, during the development of safety-critical E/E systems, according to the automotive functional safety standard ISO 26262, an unambiguous definition of the hardware-software interface (HSI) has become vital. This paper presents a domain-specific modelling approach for mechatronic systems with an integrated hardware-software interface definition feature. The newly developed model-based domain-specific language is tailored to the needs of mechatronic system engineers and supports the system’s architectural design including the interface definition, with a special focus on safety-criticality
Unlock Your Future as a Software Architect: Master UML and Design Software with Ease
Don't Just Code—Command! I'll Transform You from Developer to Architect with UML Expertise. Make Software Design Your Second Nature."
AI in UML: Discover the power of generative AI in automating and enhancing UML diagram creation.
Are you a software developer looking to escalate your career and transition into software architecture? Look no further. This course is designed to bridge that gap, transforming you from a skilled developer into a visionary software architect.
Coding is Just the Start: Soar to Architect Status with UML Mastery! Design, Communicate, and Lead Projects with Unmatched Clarity
Why This Course Is Essential:
As software development evolves, there's an increasing need for professionals who can see the big picture, create robust system designs, and lead teams effectively. Understanding Unified Modeling Language (UML) is crucial for anyone aspiring to become a software architect. UML serves as the common language that fosters clear communication, collaboration, and a shared understanding among team members and stakeholders.
Skyrocket Your Career from Coder to Architect: Master UML and Design Systems that Wow Stakeholders. Be the Architect Everyone Needs!
What You'll Learn:
Master UML: Grasp the essential UML diagrams and how they contribute to a project’s success.
Transitioning Skills: Practical steps to shift from a software developer to a software architect role.
Team Leadership: How to communicate effectively with stakeholders and lead a development team.
Design Principles: Master the art of designing robust and scalable software architectures.
Course Highlights:
Hands-on UML projects
Real-world case studies
A special 15-minute video on leveraging generative AI for UML diagramming
Interactive quizzes and assignments
Expert-led video lectures
Peer discussions and network opportunities
Who This Course Is For:
This course is ideal for software developers, junior architects, project managers, technical leads, software analysts, and anyone interested in progressing into software architecture roles.
Elevate Your Code to Architecture: Master UML and Become the Software Architect You're Meant to Be! Cut Through Complexity and Design Like a Pro.
Prerequisites:
Basic to intermediate programming skills
Familiarity with software development lifecycles
A willing mind and eagerness to learn
Course Outcomes:
Proficient understanding of UML
Understanding of how AI can streamline and innovate UML diagram generation
Ability to design complex software systems
Enhanced leadership and communication skills
Certificate of Completion
Enroll today to transition from coding tasks to leading architectural visions and designing software with ease!
Unlock Architect-Level Design Skills: I Fast-Track Developers into Master Architects with UML—Turn Complex Systems into Child's Play!
This document provides an introduction to using the Unified Modeling Language (UML) for object-oriented design and modeling. It describes UML as a standard language for visualizing, specifying, and documenting software designs using concepts from data, business, object, and component modeling. The document outlines the history and creators of UML, the different types of UML diagrams for modeling various aspects of systems, and internet resources for further information on UML.
The assistant provides helpful information and suggestions to help you
model effectively.
Code generation
VP-UML supports code generation for the following languages:
Java
C#
C++
PHP
VB.NET
Delphi
ActionScript
Python
Ruby
You can generate code from class diagram, sequence diagram, activity diagram
and state machine diagram. The generated code is customizable and extensible.
Reverse engineering
You can reverse engineer code into UML diagrams from:
Java
C#
C++
VB.NET
Delphi
PHP
The reverse engineering feature supports parsing code from source files or
existing projects/solutions.
Model validation
The model validation
UML was created to develop a common visual modeling language for software architecture, design, and implementation. Use case diagrams model system behavior and capture requirements by describing key functions and actor interactions without detailing internal system operations. Elements of use case diagrams include use cases representing system functions, actors as user roles, and relationships connecting elements.
The document provides an overview of the core concepts and processes involved in systems analysis and design using a running example project from beginning to end. It introduces the systems development life cycle (SDLC) as consisting of six core processes: (1) identifying needs and obtaining approval, (2) planning and monitoring the project, (3) defining requirements, (4) designing solutions, (5) building and testing solutions, and (6) launching solutions. The chapter then discusses these six core processes that are common to all types of SDLC approaches.
PhD Core Paper Unit 5 _Part 1 Software Design and UML Use Case Modeling.pdfJAYANTHIKANNAN8
This document provides an overview of the course "Software Design and UML Use Case Modeling" which is part of the Ph.D program in Computer Science and Engineering. The course covers topics like UML modeling concepts, types of UML diagrams with examples, user-centered design, use case modeling, basics of user interface design, and software design patterns. It includes the syllabus, learning objectives, and examples for each topic.
This document provides an overview of a mentoring session on Unified Modeling Language (UML) and software projects. It discusses object-oriented concepts, the purpose and history of UML, the main UML diagrams including use case diagrams, class diagrams, sequence diagrams, and their uses. Examples are provided of how to implement UML diagrams to model real-world systems and software applications.
This document provides an introduction to object-oriented analysis and design (OOAD) and the Unified Modeling Language (UML). It discusses the basic concepts of OOAD and how UML uses diagrams to model software systems. UML diagrams can be used in all phases of the software development life cycle, including requirements analysis, design, implementation, and testing. The document also gives an overview of the different parts of UML, such as views, diagrams, relationships, and model elements.
UML (Unified Modeling Language) is a standard modeling language used to design software systems. It uses various graphical diagrams to visualize different aspects of a system, including use case diagrams, class diagrams, activity diagrams, and more. UML was created to provide a standard way to communicate designs between developers, customers, and other stakeholders.
Levelised Cost of Hydrogen (LCOH) Calculator ManualMassimo Talia
The aim of this manual is to explain the
methodology behind the Levelized Cost of
Hydrogen (LCOH) calculator. Moreover, this
manual also demonstrates how the calculator
can be used for estimating the expenses associated with hydrogen production in Europe
using low-temperature electrolysis considering different sources of electricity
Guide on the use of Artificial Intelligence-based tools by lawyers and law fi...Massimo Talia
This guide aims to provide information on how lawyers will be able to use the opportunities provided by AI tools and how such tools could help the business processes of small firms. Its objective is to provide lawyers with some background to understand what they can and cannot realistically expect from these products. This guide aims to give a reference point for small law practices in the EU
against which they can evaluate those classes of AI applications that are probably the most relevant for them.
an analysis and new methodology for reverse engineering of uml behavioralINFOGAIN PUBLICATION
The emergence of Unified Modeling Language (UML) as a standard for modeling systems has encouraged the use of automated software tools that facilitate the development process from analysis through coding. Reverse Engineering has become a viable method to measure an existing system and reconstruct the necessary model from its original. The Reverse Engineering of behavioral models consists in extracting high-level models that help understand the behavior of existing software systems. In this paper we present an ongoing work on extracting UML diagrams from object-oriented programming languages. we propose an approach for the reverse engineering of UML behavior from the analysis of execution traces produced dynamically by an object-oriented application using formal and semi-formal techniques for modeling the dynamic behavior of a system. Our methods show that this approach can produce UML behavioral diagrams in reasonable time and suggest that these diagrams are helpful in understanding the behavior of the underlying application.
What is UML (Unified Modeling Language)?Eliza Wright
What is UML? Read our guide to learn all the answers, including which diagrams are made with the Unified Modeling Language and how you can create UML diagrams of your own.
UML (Unified Modeling Language) is a standardized modeling language used to visualize, specify, construct and document artifacts of a software system. It can be used to model both software and non-software systems. The document discusses the history, features, diagrams and real-world applications of UML. It also covers advantages like being easy to understand and standardized, as well as disadvantages such as difficulty synchronizing models with code. Finally, it briefly describes several open source UML modeling tools.
The document provides an overview of the Unified Modeling Language (UML) which is a tool used for modeling software systems and business processes. It discusses the goals of UML which are to visualize, specify, and document systems. The presentation then covers the different types of modeling in UML including structural and behavioral, the basic building blocks of UML diagrams such as boxes, messages, actions, and relationships. It concludes by providing a class diagram example and references.
This document provides an introduction to the Unified Modeling Language (UML). It outlines the course information for an Introduction to UML course, including aims, objectives, assessment, and recommended books. It then describes what UML is and lists common UML tools. The document explains that UML defines 13 types of diagrams divided into categories for structure, behavior, and interaction. Examples of different UML diagrams are provided, including class, object, component, and use case diagrams. Guidelines are given for modeling with UML, including the development process, types of models, and use case modeling syntax, semantics, and examples.
Executable UML (xUML) provides an executable version of UML with a precisely defined semantics for actions. xUML supports the separation of business logic from platform technology through platform independent models (PIMs) that can be automatically transformed into platform specific models (PSMs) through model mappings. Tools such as Kennedy Carter's iUML and Accelerated Technology's BridgePoint allow developers to simulate and test xUML models prior to translation into executable code.
UML (Unified Modeling Language) is a modeling language used to visually represent systems through diagrams. There are several types of UML diagrams used for different purposes, including behavioral diagrams like activity diagrams and sequence diagrams, and structural diagrams like class diagrams. An example use case diagram is provided to show how UML can model an ATM machine system with actors like customers and technicians, and use cases like checking balances and withdrawing cash. Web references are also included for more information on UML diagram types and examples.
RESILIENT INTERFACE DESIGN FOR SAFETY-CRITICAL EMBEDDED AUTOMOTIVE SOFTWAREcsandit
The replacement of the former, purely mechanical, functionality with mechatronics-based solutions, the introduction of new propulsion technologies, and the connection of cars to their environment are just a few reasons for the continuously increasing electrical and/or electronic
system (E/E system) complexity in modern passenger cars. Smart methodologies and techniques have been introduced in system development to cope with these new challenges. A topic that is often neglected is the definition of the interface between the hardware and software subsystems.
However, during the development of safety-critical E/E systems, according to the automotive
functional safety standard ISO 26262, an unambiguous definition of the hardware-software interface (HSI) has become vital. This paper presents a domain-specific modelling approach for mechatronic systems with an integrated hardware-software interface definition feature. The
newly developed model-based domain-specific language is tailored to the needs of mechatronic system engineers and supports the system’s architectural design including the interface definition, with a special focus on safety-criticality.
RESILIENT INTERFACE DESIGN FOR SAFETY-CRITICAL EMBEDDED AUTOMOTIVE SOFTWAREcscpconf
The replacement of the former, purely mechanical, functionality with mechatronics-based solutions, the introduction of new propulsion technologies, and the connection of cars to their environment are just a few reasons for the continuously increasing electrical and/or electronic system (E/E system) complexity in modern passenger cars. Smart methodologies and techniques have been introduced in system development to cope with these new challenges. A topic that is often neglected is the definition of the interface between the hardware and software subsystems. However, during the development of safety-critical E/E systems, according to the automotive functional safety standard ISO 26262, an unambiguous definition of the hardware-software interface (HSI) has become vital. This paper presents a domain-specific modelling approach for mechatronic systems with an integrated hardware-software interface definition feature. The newly developed model-based domain-specific language is tailored to the needs of mechatronic system engineers and supports the system’s architectural design including the interface definition, with a special focus on safety-criticality
Unlock Your Future as a Software Architect: Master UML and Design Software with Ease
Don't Just Code—Command! I'll Transform You from Developer to Architect with UML Expertise. Make Software Design Your Second Nature."
AI in UML: Discover the power of generative AI in automating and enhancing UML diagram creation.
Are you a software developer looking to escalate your career and transition into software architecture? Look no further. This course is designed to bridge that gap, transforming you from a skilled developer into a visionary software architect.
Coding is Just the Start: Soar to Architect Status with UML Mastery! Design, Communicate, and Lead Projects with Unmatched Clarity
Why This Course Is Essential:
As software development evolves, there's an increasing need for professionals who can see the big picture, create robust system designs, and lead teams effectively. Understanding Unified Modeling Language (UML) is crucial for anyone aspiring to become a software architect. UML serves as the common language that fosters clear communication, collaboration, and a shared understanding among team members and stakeholders.
Skyrocket Your Career from Coder to Architect: Master UML and Design Systems that Wow Stakeholders. Be the Architect Everyone Needs!
What You'll Learn:
Master UML: Grasp the essential UML diagrams and how they contribute to a project’s success.
Transitioning Skills: Practical steps to shift from a software developer to a software architect role.
Team Leadership: How to communicate effectively with stakeholders and lead a development team.
Design Principles: Master the art of designing robust and scalable software architectures.
Course Highlights:
Hands-on UML projects
Real-world case studies
A special 15-minute video on leveraging generative AI for UML diagramming
Interactive quizzes and assignments
Expert-led video lectures
Peer discussions and network opportunities
Who This Course Is For:
This course is ideal for software developers, junior architects, project managers, technical leads, software analysts, and anyone interested in progressing into software architecture roles.
Elevate Your Code to Architecture: Master UML and Become the Software Architect You're Meant to Be! Cut Through Complexity and Design Like a Pro.
Prerequisites:
Basic to intermediate programming skills
Familiarity with software development lifecycles
A willing mind and eagerness to learn
Course Outcomes:
Proficient understanding of UML
Understanding of how AI can streamline and innovate UML diagram generation
Ability to design complex software systems
Enhanced leadership and communication skills
Certificate of Completion
Enroll today to transition from coding tasks to leading architectural visions and designing software with ease!
Unlock Architect-Level Design Skills: I Fast-Track Developers into Master Architects with UML—Turn Complex Systems into Child's Play!
This document provides an introduction to using the Unified Modeling Language (UML) for object-oriented design and modeling. It describes UML as a standard language for visualizing, specifying, and documenting software designs using concepts from data, business, object, and component modeling. The document outlines the history and creators of UML, the different types of UML diagrams for modeling various aspects of systems, and internet resources for further information on UML.
The assistant provides helpful information and suggestions to help you
model effectively.
Code generation
VP-UML supports code generation for the following languages:
Java
C#
C++
PHP
VB.NET
Delphi
ActionScript
Python
Ruby
You can generate code from class diagram, sequence diagram, activity diagram
and state machine diagram. The generated code is customizable and extensible.
Reverse engineering
You can reverse engineer code into UML diagrams from:
Java
C#
C++
VB.NET
Delphi
PHP
The reverse engineering feature supports parsing code from source files or
existing projects/solutions.
Model validation
The model validation
UML was created to develop a common visual modeling language for software architecture, design, and implementation. Use case diagrams model system behavior and capture requirements by describing key functions and actor interactions without detailing internal system operations. Elements of use case diagrams include use cases representing system functions, actors as user roles, and relationships connecting elements.
The document provides an overview of the core concepts and processes involved in systems analysis and design using a running example project from beginning to end. It introduces the systems development life cycle (SDLC) as consisting of six core processes: (1) identifying needs and obtaining approval, (2) planning and monitoring the project, (3) defining requirements, (4) designing solutions, (5) building and testing solutions, and (6) launching solutions. The chapter then discusses these six core processes that are common to all types of SDLC approaches.
PhD Core Paper Unit 5 _Part 1 Software Design and UML Use Case Modeling.pdfJAYANTHIKANNAN8
This document provides an overview of the course "Software Design and UML Use Case Modeling" which is part of the Ph.D program in Computer Science and Engineering. The course covers topics like UML modeling concepts, types of UML diagrams with examples, user-centered design, use case modeling, basics of user interface design, and software design patterns. It includes the syllabus, learning objectives, and examples for each topic.
This document provides an overview of a mentoring session on Unified Modeling Language (UML) and software projects. It discusses object-oriented concepts, the purpose and history of UML, the main UML diagrams including use case diagrams, class diagrams, sequence diagrams, and their uses. Examples are provided of how to implement UML diagrams to model real-world systems and software applications.
This document provides an introduction to object-oriented analysis and design (OOAD) and the Unified Modeling Language (UML). It discusses the basic concepts of OOAD and how UML uses diagrams to model software systems. UML diagrams can be used in all phases of the software development life cycle, including requirements analysis, design, implementation, and testing. The document also gives an overview of the different parts of UML, such as views, diagrams, relationships, and model elements.
UML (Unified Modeling Language) is a standard modeling language used to design software systems. It uses various graphical diagrams to visualize different aspects of a system, including use case diagrams, class diagrams, activity diagrams, and more. UML was created to provide a standard way to communicate designs between developers, customers, and other stakeholders.
Levelised Cost of Hydrogen (LCOH) Calculator ManualMassimo Talia
The aim of this manual is to explain the
methodology behind the Levelized Cost of
Hydrogen (LCOH) calculator. Moreover, this
manual also demonstrates how the calculator
can be used for estimating the expenses associated with hydrogen production in Europe
using low-temperature electrolysis considering different sources of electricity
Guide on the use of Artificial Intelligence-based tools by lawyers and law fi...Massimo Talia
This guide aims to provide information on how lawyers will be able to use the opportunities provided by AI tools and how such tools could help the business processes of small firms. Its objective is to provide lawyers with some background to understand what they can and cannot realistically expect from these products. This guide aims to give a reference point for small law practices in the EU
against which they can evaluate those classes of AI applications that are probably the most relevant for them.
Business process re-engineering tutorial by Draw Libre Office in BPMN language for management engineers and business Architects, industrial engineers, information engineers, system engineers.
Dynamical systems simulation in Python for science and engineeringMassimo Talia
Tutorial about the simulations in Python for professional, researchers and students in information, industrial engineering, physics, mathematics. The tutorial describes some cases of simulation using the Python packages: Simupy, Control, Plotly and Dash.
Free of charge download.
Dlgs 165/2001 e dlgs 75/2017-Ordinamento del lavoro nelle PA e successive int...Massimo Talia
Dlgs 165/2001-Norme generali sull'ordinamento del lavoro alle dipendenze delle
amministrazioni pubbliche.
.......
Dlgs 75/2017-Modifiche e integrazioni al decreto legislativo 30 marzo 2001, n. 165, ai sensi degli articoli 16, commi 1,
lettera a), e 2, lettere b), c), d) ed e) e 17, comma 1, lettere a), c), e), f), g), h), l) m), n), o), q), r), s) e z), della
legge 7 agosto 2015, n. 124, in materia di riorganizzazione delle amministrazioni pubbliche.
A Framework of Knowledge, Skills and Attitudes Conductive to High Performanc...Massimo Talia
An overview of Project Performance International about the system engineering, project and program management, software and system requirements management tools.
Progettazione ed installazione impianti d'antenna Massimo Talia
Norme e regolamenti per la progettazione esecutiva e definitiva, installazione degli impianti di antenna. Norme per progettisti ingegneri, collaudatori, installatori.
European Union report about the European countries digitalization and the digitalization objectives in the 2030.
Link to the European report per country:
https://digital-strategy.ec.europa.eu/en/library/2023-report-state-digital-decade
Artificial Intelligence The Future of HumankindMassimo Talia
The artificial intelligence in the age of IoTs and ICT. Robotics as a medium which artificial intelligence enables human-like behaviours through.
Link:
https://time.com/
This is a course about embedded systems programming. Embedded systems are everywhere today, including just to name a few the thermostats that control a building's temperature, the power-steering controller in modern automobiles, and the control systems in charge of jet engines. The prerequisites for reading this ebook are: knowledge about computer and processors architecture, Ada programming language.
EIT Health was established in 2015, as a ‘knowledge and innovation community’ (KIC) of the European Institute of Innovation and Technology (EIT). The EIT is made up of various KICs who each focus on a different sector, or area, of innovation – in our case, that is health and aging. The idea behind the EIT KICs is that innovation flourishes best when the right people are brought together to share expertise. The so called ‘knowledge triangle’, is the principle that when experts from business, research and education work together as one, an optimal environment for innovation is created.
https://eithealth.eu/
62 PRODUZIONE DI SOFTWARE, CONSULENZA INFORMATICA E ATTIVITÀ CONNESSE
Nei codici 62.0.1,62.0.2,62.0.3 si esclude la riparazione di computer e dispositivi hardware che corrispondono al codice 62.0.9 e non si possono gestire i mainframe aziendali (sviluppo e test in COBOL e derivati per le Banche). Come ingegneri elettronici non esiste un codice ATECO specifico in progettazione elettronica, ma esiste un codice per INGEGNERE 71.12.10 che include ingegneri elettronici, quindi nel caso specifico del SUD Edilizia. Ma per fare edilizia ed impiantistica bisogna associarsi con uno studio che tratta edilizia come progettista di impianti. Quindi in realtà un ingegnere elettronico, meccanico, aerospaziale, elettrico al sud Reggio Calabria e Calabria dovrebbe fare l'ingegnere civile, edile ed ambientale, perchè non esistono industrie di settore. Ma gli ingegneri elettronici iscritti all'albo in tutti settori per scienza e coscienza non potrebbero firmare i progetti civili, edili ed ambientali anche se la legge lo consente. Due leggi che si abrogano a vicenda: etica dell'ingegnere e legge esame di stato vecchissimo ordinamento.
Misuratore di Campo Combinato per TV, SAT e Fibra Ottica, FullHD con display 7” alta risoluzione DPMAX2 con supporto dCSS SKY e codec H265/HEVC per DVB-T2 e DVB-S2 e Ingresso Fibra OTTICA
Strumento di misura portatile combinato DiProgress Max2, con funzioni di misura, visualizzazione immagini e spettro per TV e Satellite. Compatibile con lo standard DVB-T/T2 e DVB-S/S2 grazie ai codec MPEG2/MPEG4 e HEVC/H265 che consentono la visualizzazione delle immagini dei canali HDTV. Dotato di grande display da 7'' ad alta risoluzione facile da leggere in tutte le condizioni.
The guide for Python Control Developers, Control Systems sciencists or engineers. Python is a very flexible language for software engineers, simulation engineers, sciencists, control engineers. An Open Source solutions for sciencists and information engineers. This library can be installed by PIP in the Python environment.
Come emettere fattura da e verso paesi europei. Linee guida per la fatturazione da parte di imprese e liberi professionisti: ART 3 Comma 1, D.l.g.s 148/2018. Versione 2.3 del documento del 15/05/2023.
Le competenze dell'ingegnere iscritto all'albo secondo il D.P.R 328/2001. Gli ingegneri elettronici ordinamento tradizionale quinquennale hanno due lauree magistrali LM29 ed LM25, ossia ingegneria elettronica e dell'automazione. Il che significa che sono ingegneri industriali e dell'informazione, pertanto possono firmare progetti di ingegneria industriale e dell'informazione, anche se l'ordine consente la firma di progetti edili avendo superato il vecchio esame di stato. Ma gli ingegneri Elettronici capiscono poco di edilizia e costruzioni a parte i corsi aggiuntivi di riqualificazione professionale. Purtroppo gli Ingegneri Elettronici non progettano edifici, ponti, infrastrutture edili e civili, anche se potrebbero legalmente farlo. È più facile la riconversione in Civile degli ingegneri meccanici, aerospaziali, elettrici, nucleari (ingegneri tradizionali industriali) che degli elettronici. Se bisogna seguire scienza e coscienza per esercitare la professione, allora gli ingegneri elettronici non sono ingegneri civili, edili, ambientali.
HI-3220 ARINC 429 DATA MANAGEMENT ENGINE
16 x RECEIVERS, 8 x TRANSMITTERS, ADK-3220. Application Development Kit Users Guide and High Density 16Rx / 8Tx or 8Rx / 4Tx ARINC 429 HI-3220 datasheet.
3rd International Conference on Artificial Intelligence Advances (AIAD 2024)GiselleginaGloria
3rd International Conference on Artificial Intelligence Advances (AIAD 2024) will act as a major forum for the presentation of innovative ideas, approaches, developments, and research projects in the area advanced Artificial Intelligence. It will also serve to facilitate the exchange of information between researchers and industry professionals to discuss the latest issues and advancement in the research area. Core areas of AI and advanced multi-disciplinary and its applications will be covered during the conferences.
Impartiality as per ISO /IEC 17025:2017 StandardMuhammadJazib15
This document provides basic guidelines for imparitallity requirement of ISO 17025. It defines in detial how it is met and wiudhwdih jdhsjdhwudjwkdbjwkdddddddddddkkkkkkkkkkkkkkkkkkkkkkkwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwioiiiiiiiiiiiii uwwwwwwwwwwwwwwwwhe wiqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqq gbbbbbbbbbbbbb owdjjjjjjjjjjjjjjjjjjjj widhi owqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqq uwdhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhwqiiiiiiiiiiiiiiiiiiiiiiiiiiiiw0pooooojjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjj whhhhhhhhhhh wheeeeeeee wihieiiiiii wihe
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Determination of Equivalent Circuit parameters and performance characteristic...pvpriya2
Includes the testing of induction motor to draw the circle diagram of induction motor with step wise procedure and calculation for the same. Also explains the working and application of Induction generator
Sri Guru Hargobind Ji - Bandi Chor Guru.pdfBalvir Singh
Sri Guru Hargobind Ji (19 June 1595 - 3 March 1644) is revered as the Sixth Nanak.
• On 25 May 1606 Guru Arjan nominated his son Sri Hargobind Ji as his successor. Shortly
afterwards, Guru Arjan was arrested, tortured and killed by order of the Mogul Emperor
Jahangir.
• Guru Hargobind's succession ceremony took place on 24 June 1606. He was barely
eleven years old when he became 6th Guru.
• As ordered by Guru Arjan Dev Ji, he put on two swords, one indicated his spiritual
authority (PIRI) and the other, his temporal authority (MIRI). He thus for the first time
initiated military tradition in the Sikh faith to resist religious persecution, protect
people’s freedom and independence to practice religion by choice. He transformed
Sikhs to be Saints and Soldier.
• He had a long tenure as Guru, lasting 37 years, 9 months and 3 days
Build the Next Generation of Apps with the Einstein 1 Platform.
Rejoignez Philippe Ozil pour une session de workshops qui vous guidera à travers les détails de la plateforme Einstein 1, l'importance des données pour la création d'applications d'intelligence artificielle et les différents outils et technologies que Salesforce propose pour vous apporter tous les bénéfices de l'IA.
Flow Through Pipe: the analysis of fluid flow within pipesIndrajeet sahu
Flow Through Pipe: This topic covers the analysis of fluid flow within pipes, focusing on laminar and turbulent flow regimes, continuity equation, Bernoulli's equation, Darcy-Weisbach equation, head loss due to friction, and minor losses from fittings and bends. Understanding these principles is crucial for efficient pipe system design and analysis.
Digital Twins Computer Networking Paper Presentation.pptxaryanpankaj78
A Digital Twin in computer networking is a virtual representation of a physical network, used to simulate, analyze, and optimize network performance and reliability. It leverages real-time data to enhance network management, predict issues, and improve decision-making processes.
2. Summary
The models in engineering
UML and SySML
UML views
Main applications of UML/SysML
3. The models in engineering
A model is a representation of physical, economical,
scientific, natural phenomena, software items and the
industrial crafts;
The models are described by physical and
mathematical notations or diagrams. In the academic
environments every model is developed and validate,
but it’s not ready to the full scale production, because
it’s not compliance to the technical standards and
there isn’t availability of a production chain.
4. UML and SysML
The Unified Modeling Language (UML) is a language
and graphical notation used to specify, construct, visualize
and document models of software systems and business.
UML covers a wide range of applications and it’s suitable
for technical systems (concurrent, distributed, time
critical) and the business processes (organigrams,
customers, resources, material and information in input
and output, business activities);
The System Modeling Language (SysML) is a graphical
“modelling language” in response to the UML for Systems
Engineering RFP developed by the OMG, INCOSE and it’s
defined as an “UML Profile” that represents a subset of
UML 2.0 with extensions.
5. UML views
UML (Eriksson-Penker notation ) on the Business Modeling plan and UML
2.0/SysML on the System Modeling plan . The main roles are: Business
Architect (management consultancy side), Software/System architect
(technical side).
6. Main applications of UML/SysML
The main application of these notations is:
in the field of the industrial market, where you must
certificate every step of the industrial processes and
designing the software or system architecture;
in IT where you have to describe the processes for
improving or re-engineering the business or the
architecture of a software system.