Introduction to proteus for dummies. It is a software used to simulate electrical circuits. It saves time and also appliances. It is widely used now a days in electrical technology.
This document provides an overview of Arduino programming concepts including:
- Microcontrollers contain a CPU, memory, input/output pins and other peripherals on a single integrated circuit.
- Arduino is an open-source electronics platform with a microcontroller, pins to connect circuits, and software to program it.
- The core Arduino functions include setup(), loop(), pinMode(), digitalWrite(), digitalRead(), analogWrite(), analogRead(), and delay().
- Examples demonstrate blinking LEDs, reading input, using conditions and loops, arrays, LCD displays, and controlling servo motors.
- Arduino programming provides an accessible way to learn embedded systems and interact with circuits.
An Embedded system is a programmed controlling and operating system with a dedicated function within a larger mechanical or electrical system , often with real-time computing constrain.
It is a system that has software embedded into computer hardware , which makes a system dedicated for an applications or specific part of an application.
This document provides an introduction to the Arduino, an open-source electronics prototyping platform. It explains that Arduino uses a microchip that can be programmed to sense inputs from sensors and control outputs to other devices. It also covers basic electronics concepts like digital and analog inputs/outputs, and shows how to set up a simple circuit with an LED and use code to blink the LED.
This document provides an introduction to the Arduino electronics prototyping platform. It explains that Arduino is an open-source platform used to build interactive electronic projects through hardware and software. The document covers basic concepts such as inputs and outputs, digital and analog signals, circuits, and programming Arduino with a simple blink example. It also demonstrates attaching basic components like LEDs, buttons, and potentiometers to control outputs and read inputs.
The document provides an overview of Arduino, including what it is, common Arduino boards, digital and analog input/output, and example projects. Arduino is an open-source electronics prototyping platform that can be used to create interactive objects. It uses a simple hardware and software environment to program and develop prototypes. The Arduino Uno is one of the most commonly used boards, which contains an Atmega328 microcontroller, digital and analog pins, and can be programmed via USB. The document describes how to connect various components like LEDs, buttons, sensors and motors to an Arduino board.
The document provides an overview of Arduino, including what it is, common Arduino boards, digital and analog input/output, and example projects. Arduino is an open-source electronics prototyping platform that allows users to create interactive objects and environments. It uses flexible, easy-to-use hardware and software. Common tasks demonstrated include blinking LEDs, reading buttons, and controlling motors. The document serves as an introduction to getting started with the Arduino platform.
This document describes a project to control the speed of a robot using pulse width modulation (PWM). Rushil Goyal and Siddharth Agarwal developed a robot that can be controlled wirelessly to move forward, backward, left, and right at different speeds set by transmitting a PWM signal over UART. They used an Atmega16 microcontroller, L293D motor drivers, switches, LEDs, and a LCD display. The program code for controlling the robot with PWM is included. The document also provides background information on robots, including classifications, components like manipulators and control systems, and applications of sensors, actuators, and artificial intelligence in robotics.
This document provides an overview of Arduino programming concepts including:
- Microcontrollers contain a CPU, memory, input/output pins and other peripherals on a single integrated circuit.
- Arduino is an open-source electronics platform with a microcontroller, pins to connect circuits, and software to program it.
- The core Arduino functions include setup(), loop(), pinMode(), digitalWrite(), digitalRead(), analogWrite(), analogRead(), and delay().
- Examples demonstrate blinking LEDs, reading input, using conditions and loops, arrays, LCD displays, and controlling servo motors.
- Arduino programming provides an accessible way to learn embedded systems and interact with circuits.
An Embedded system is a programmed controlling and operating system with a dedicated function within a larger mechanical or electrical system , often with real-time computing constrain.
It is a system that has software embedded into computer hardware , which makes a system dedicated for an applications or specific part of an application.
This document provides an introduction to the Arduino, an open-source electronics prototyping platform. It explains that Arduino uses a microchip that can be programmed to sense inputs from sensors and control outputs to other devices. It also covers basic electronics concepts like digital and analog inputs/outputs, and shows how to set up a simple circuit with an LED and use code to blink the LED.
This document provides an introduction to the Arduino electronics prototyping platform. It explains that Arduino is an open-source platform used to build interactive electronic projects through hardware and software. The document covers basic concepts such as inputs and outputs, digital and analog signals, circuits, and programming Arduino with a simple blink example. It also demonstrates attaching basic components like LEDs, buttons, and potentiometers to control outputs and read inputs.
The document provides an overview of Arduino, including what it is, common Arduino boards, digital and analog input/output, and example projects. Arduino is an open-source electronics prototyping platform that can be used to create interactive objects. It uses a simple hardware and software environment to program and develop prototypes. The Arduino Uno is one of the most commonly used boards, which contains an Atmega328 microcontroller, digital and analog pins, and can be programmed via USB. The document describes how to connect various components like LEDs, buttons, sensors and motors to an Arduino board.
The document provides an overview of Arduino, including what it is, common Arduino boards, digital and analog input/output, and example projects. Arduino is an open-source electronics prototyping platform that allows users to create interactive objects and environments. It uses flexible, easy-to-use hardware and software. Common tasks demonstrated include blinking LEDs, reading buttons, and controlling motors. The document serves as an introduction to getting started with the Arduino platform.
This document describes a project to control the speed of a robot using pulse width modulation (PWM). Rushil Goyal and Siddharth Agarwal developed a robot that can be controlled wirelessly to move forward, backward, left, and right at different speeds set by transmitting a PWM signal over UART. They used an Atmega16 microcontroller, L293D motor drivers, switches, LEDs, and a LCD display. The program code for controlling the robot with PWM is included. The document also provides background information on robots, including classifications, components like manipulators and control systems, and applications of sensors, actuators, and artificial intelligence in robotics.
1. The document provides step-by-step instructions for setting up the Arduino IDE software and connecting an Arduino board to a computer. It explains how to select the board type and serial port, and upload a program to make an LED blink.
2. Key steps include downloading the Arduino IDE, selecting the board type in Tools, choosing the serial port, and uploading a basic blink program to test that the board is connected properly.
3. The document also provides an overview of programming concepts for Arduino like using variables, constants, and the setup and loop functions.
This document provides instructions for using Imada digital torque wrenches and testers. It details specifications, operation modes, programming, data output, memory functions, and other features. The warranty covers defects for two years but has restrictions. The manual outlines safety information and proper use of the devices.
The document summarizes a student robotics project to build a robot that can detect and follow a black line while carrying a 1kg mass. A group of 4 students were tasked with designing, building, and programming the robot within a time constraint. They used an Arduino Uno microcontroller, a QTR-8RC sensor array to detect the black line, two DC motors to drive the wheels, and a 3D printer to build the body. The report outlines the various processes involved in the project, including the theory behind components used, software and electrical design, mechanical design, testing, and the capabilities of the completed robot.
1) The document describes a mobile controlled robot that can be operated via dual-tone multi-frequency (DTMF) tones sent from a mobile phone.
2) The robot uses a DTMF receiver and decoder chip to receive and interpret DTMF tones from a calling mobile phone into digital commands. These commands are sent to a motor driver chip to control two motors and move the robot forward, backward, or change direction.
3) Operation involves calling the mobile phone attached to the robot. Pressing numbers on the calling phone's keypad generates DTMF tones that are received and translated into motor control signals by the robot.
This document provides an overview of an Arduino course covering embedded systems and programming. The summary includes:
- The course covers introduction to embedded systems including components, characteristics, and basic structure. It also covers introduction to computer programming concepts for Arduino like variables, operators, and control statements.
- The Arduino environment and programming is explained including the board, IDE, sensors, actuators and communication. Common electronic components and modules used with Arduino like LEDs, buttons, LCDs, ultrasonic sensors, and Bluetooth are described.
- The document concludes with a section on circuit diagrams for Arduino projects. Key concepts around pins, analog/digital input/output, pulse width modulation, delay, and
This document summarizes a student project to design a multi-point touch pad. It discusses how touch pads work by using a grid of resistances to detect touch locations and convert analog signals to digital coordinates. It then outlines the project to build a touch pad using an AVR microcontroller and MAX232 for interfacing with a PC. Driver circuitry is used to refresh the resistive grid after each reading. The goal is to enable customized applications through character and symbol recognition on the touch pad.
This document provides an overview of an Arduino course covering embedded systems and programming. The summary includes:
- The course covers introduction to embedded systems including components, characteristics, and basic structure. It also covers introduction to computer programming concepts for Arduino including variables, operators, control statements, functions, and C language basics.
- The document outlines the Arduino environment including boards, software IDE, sensors, actuators and provides examples of electronic components like LEDs, buttons, and code for digital input/output and serial communication.
- Finally, the course covers creating circuit diagrams and interfacing with common modules like LCD displays, ultrasonic sensors, relays, Bluetooth and DC motors.
Implementation of a digital multimeter using basic stamp2 on a professional development board. It also includes R2R ladder network for digital to analog conversion
This document describes an energy saving visitor counter project that uses a microcontroller and infrared sensors. The objective is to design a circuit that can count the number of people entering and exiting a room and control the room light accordingly. It uses an IR transmitter and receiver to detect movement and increments or decrements the counter value, which is displayed on seven-segment displays. The microcontroller controls the counting and display functionality while receiving input from the IR sensors. Proteus and Keil software are used to simulate and program the microcontroller respectively.
Pee Kelly's email ID please work send you are Trisha to use it ke liye aur vah apane ghar ke bahar bhi karya ko lekar bhi charcha ki simran aur hai mere pass
Interface stepper motor through Arduino using LABVIEW.Ankita Tiwari
The document describes an experiment to interface a stepper motor with Arduino using LabVIEW. It involves establishing a front panel and block diagram in LabVIEW to start communication with Arduino and send new control values or a stop signal. The Arduino code checks for new values from LabVIEW, uses the value as the delay interval between motor steps to control speed, and sends the calculated motor speed to another serial port to confirm it is working. The result is the stepper motor is successfully run by interfacing Arduino with LabVIEW.
The document provides instructions for using an Arduino board as a frequency counter. It outlines the objectives, equipment needed including an Arduino board, signal generator, and oscilloscope. It describes how to program the Arduino with an interrupt service routine to count pulses and estimate frequency. Learners will connect the signal generator to the Arduino, observe waveforms on the oscilloscope, and take measurements to analyze the accuracy of frequency readings from the Arduino over different input frequencies.
The document provides instructions for designing a printed circuit board (PCB) layout using ExpressPCB software. It guides the user through importing a schematic design, then placing and connecting components on the layout. Key steps include entering the schematic in ExpressSCH, assigning part identifiers, adding custom components, checking for errors, and then placing and wiring components in the PCB layout editor. The goal is to design a PCB for a drawer burglar alarm circuit.
Sellenis s jet-800_series_valvejet lcp_printer_user_manual - 12 dec 2017Ammar lecheheb
Sellenis new Drop On Demand
(DOD) Large Character Printer Series offers:
Flexibility
• Multiple Languages (can easily add other languages)
• Print text, barcodes, images up to 142.5 mm in height
• Achieve print speeds of up to 300 m/min (600 ft/min)
• Support GS1 data format;
• Full track & trace software
• Use fast drying solvent inks as well as water based ones
• Employ dye and pigment based inks to print on almost any substrates
Ease of Use & Integration
• Connect via TCP/IP (internet), USB, Ethernet cable, WIFI, Bluetooth
• Create, save, edit & print from your PC using Nicelabel, Bartender etc..
• Use Sellenis external protocol to communicate & print from client PC
• A large 10.1” touch screen for ease of operation
• A common graphical user interface across all of our products
• On and off line windows based label creation and printer controller
• Integrate easily with external third party devices
• Intuitive, icon based user interface requiring little or no training
• Automatic or manual printhead flushing (purging)
• Live display of ink used and print data
Porte à puce - Smart Safety Door based on Arduino UNO R3Meifani Sumadijaya
Porte à Puce is a smart door security system with passcode, temperature, and humidity sensors built using an Arduino microcontroller. It has a keypad to enter a passcode, displays humidity and temperature readings, and will open automatically if the temperature reaches 35°C. It was created as a student project and cost approximately 443,000 Indonesian Rupiah to build using components like an Arduino, LCD screen, sensors, motors and other electronics. The system provides basic home security and safety functions while keeping costs low.
This document provides an overview of a course on measuring instruments. It discusses how to use multimeters to measure voltage, current, resistance, and test diodes and continuity. It also covers function generators and oscilloscopes. Students will learn how to use these instruments to take electrical measurements and test components. Practical tasks are included where students will use multimeters to take voltage, current, and resistance readings on circuits. They will also test diodes and continuity. Function generators and oscilloscopes will be used to generate and observe signals.
1) The document describes an internship report submitted by Daman Singh Walia for an embedded systems training program using PIC microcontrollers.
2) The training covered architecture, memory organization, interrupts, and timers of PIC microcontrollers. The intern interfaced hardware including LEDs, switches, LCDs, and Bluetooth modules with PIC microcontrollers.
3) The document provides information on embedded systems, PIC16F877A microcontroller features, and how to interface common hardware components like LEDs, switches, and LCDs with PIC microcontrollers.
This document provides an overview of Arduino programming and the Arduino platform. It discusses what Arduino is, what types of projects can be built with Arduino, and covers the basics of getting started, digital and analog inputs/outputs, Neopixels, and putting projects together. It also includes an agenda and summaries of the Arduino UNO board and common sensors that can be used.
1. The document provides step-by-step instructions for setting up the Arduino IDE software and connecting an Arduino board to a computer. It explains how to select the board type and serial port, and upload a program to make an LED blink.
2. Key steps include downloading the Arduino IDE, selecting the board type in Tools, choosing the serial port, and uploading a basic blink program to test that the board is connected properly.
3. The document also provides an overview of programming concepts for Arduino like using variables, constants, and the setup and loop functions.
This document provides instructions for using Imada digital torque wrenches and testers. It details specifications, operation modes, programming, data output, memory functions, and other features. The warranty covers defects for two years but has restrictions. The manual outlines safety information and proper use of the devices.
The document summarizes a student robotics project to build a robot that can detect and follow a black line while carrying a 1kg mass. A group of 4 students were tasked with designing, building, and programming the robot within a time constraint. They used an Arduino Uno microcontroller, a QTR-8RC sensor array to detect the black line, two DC motors to drive the wheels, and a 3D printer to build the body. The report outlines the various processes involved in the project, including the theory behind components used, software and electrical design, mechanical design, testing, and the capabilities of the completed robot.
1) The document describes a mobile controlled robot that can be operated via dual-tone multi-frequency (DTMF) tones sent from a mobile phone.
2) The robot uses a DTMF receiver and decoder chip to receive and interpret DTMF tones from a calling mobile phone into digital commands. These commands are sent to a motor driver chip to control two motors and move the robot forward, backward, or change direction.
3) Operation involves calling the mobile phone attached to the robot. Pressing numbers on the calling phone's keypad generates DTMF tones that are received and translated into motor control signals by the robot.
This document provides an overview of an Arduino course covering embedded systems and programming. The summary includes:
- The course covers introduction to embedded systems including components, characteristics, and basic structure. It also covers introduction to computer programming concepts for Arduino like variables, operators, and control statements.
- The Arduino environment and programming is explained including the board, IDE, sensors, actuators and communication. Common electronic components and modules used with Arduino like LEDs, buttons, LCDs, ultrasonic sensors, and Bluetooth are described.
- The document concludes with a section on circuit diagrams for Arduino projects. Key concepts around pins, analog/digital input/output, pulse width modulation, delay, and
This document summarizes a student project to design a multi-point touch pad. It discusses how touch pads work by using a grid of resistances to detect touch locations and convert analog signals to digital coordinates. It then outlines the project to build a touch pad using an AVR microcontroller and MAX232 for interfacing with a PC. Driver circuitry is used to refresh the resistive grid after each reading. The goal is to enable customized applications through character and symbol recognition on the touch pad.
This document provides an overview of an Arduino course covering embedded systems and programming. The summary includes:
- The course covers introduction to embedded systems including components, characteristics, and basic structure. It also covers introduction to computer programming concepts for Arduino including variables, operators, control statements, functions, and C language basics.
- The document outlines the Arduino environment including boards, software IDE, sensors, actuators and provides examples of electronic components like LEDs, buttons, and code for digital input/output and serial communication.
- Finally, the course covers creating circuit diagrams and interfacing with common modules like LCD displays, ultrasonic sensors, relays, Bluetooth and DC motors.
Implementation of a digital multimeter using basic stamp2 on a professional development board. It also includes R2R ladder network for digital to analog conversion
This document describes an energy saving visitor counter project that uses a microcontroller and infrared sensors. The objective is to design a circuit that can count the number of people entering and exiting a room and control the room light accordingly. It uses an IR transmitter and receiver to detect movement and increments or decrements the counter value, which is displayed on seven-segment displays. The microcontroller controls the counting and display functionality while receiving input from the IR sensors. Proteus and Keil software are used to simulate and program the microcontroller respectively.
Pee Kelly's email ID please work send you are Trisha to use it ke liye aur vah apane ghar ke bahar bhi karya ko lekar bhi charcha ki simran aur hai mere pass
Interface stepper motor through Arduino using LABVIEW.Ankita Tiwari
The document describes an experiment to interface a stepper motor with Arduino using LabVIEW. It involves establishing a front panel and block diagram in LabVIEW to start communication with Arduino and send new control values or a stop signal. The Arduino code checks for new values from LabVIEW, uses the value as the delay interval between motor steps to control speed, and sends the calculated motor speed to another serial port to confirm it is working. The result is the stepper motor is successfully run by interfacing Arduino with LabVIEW.
The document provides instructions for using an Arduino board as a frequency counter. It outlines the objectives, equipment needed including an Arduino board, signal generator, and oscilloscope. It describes how to program the Arduino with an interrupt service routine to count pulses and estimate frequency. Learners will connect the signal generator to the Arduino, observe waveforms on the oscilloscope, and take measurements to analyze the accuracy of frequency readings from the Arduino over different input frequencies.
The document provides instructions for designing a printed circuit board (PCB) layout using ExpressPCB software. It guides the user through importing a schematic design, then placing and connecting components on the layout. Key steps include entering the schematic in ExpressSCH, assigning part identifiers, adding custom components, checking for errors, and then placing and wiring components in the PCB layout editor. The goal is to design a PCB for a drawer burglar alarm circuit.
Sellenis s jet-800_series_valvejet lcp_printer_user_manual - 12 dec 2017Ammar lecheheb
Sellenis new Drop On Demand
(DOD) Large Character Printer Series offers:
Flexibility
• Multiple Languages (can easily add other languages)
• Print text, barcodes, images up to 142.5 mm in height
• Achieve print speeds of up to 300 m/min (600 ft/min)
• Support GS1 data format;
• Full track & trace software
• Use fast drying solvent inks as well as water based ones
• Employ dye and pigment based inks to print on almost any substrates
Ease of Use & Integration
• Connect via TCP/IP (internet), USB, Ethernet cable, WIFI, Bluetooth
• Create, save, edit & print from your PC using Nicelabel, Bartender etc..
• Use Sellenis external protocol to communicate & print from client PC
• A large 10.1” touch screen for ease of operation
• A common graphical user interface across all of our products
• On and off line windows based label creation and printer controller
• Integrate easily with external third party devices
• Intuitive, icon based user interface requiring little or no training
• Automatic or manual printhead flushing (purging)
• Live display of ink used and print data
Porte à puce - Smart Safety Door based on Arduino UNO R3Meifani Sumadijaya
Porte à Puce is a smart door security system with passcode, temperature, and humidity sensors built using an Arduino microcontroller. It has a keypad to enter a passcode, displays humidity and temperature readings, and will open automatically if the temperature reaches 35°C. It was created as a student project and cost approximately 443,000 Indonesian Rupiah to build using components like an Arduino, LCD screen, sensors, motors and other electronics. The system provides basic home security and safety functions while keeping costs low.
This document provides an overview of a course on measuring instruments. It discusses how to use multimeters to measure voltage, current, resistance, and test diodes and continuity. It also covers function generators and oscilloscopes. Students will learn how to use these instruments to take electrical measurements and test components. Practical tasks are included where students will use multimeters to take voltage, current, and resistance readings on circuits. They will also test diodes and continuity. Function generators and oscilloscopes will be used to generate and observe signals.
1) The document describes an internship report submitted by Daman Singh Walia for an embedded systems training program using PIC microcontrollers.
2) The training covered architecture, memory organization, interrupts, and timers of PIC microcontrollers. The intern interfaced hardware including LEDs, switches, LCDs, and Bluetooth modules with PIC microcontrollers.
3) The document provides information on embedded systems, PIC16F877A microcontroller features, and how to interface common hardware components like LEDs, switches, and LCDs with PIC microcontrollers.
This document provides an overview of Arduino programming and the Arduino platform. It discusses what Arduino is, what types of projects can be built with Arduino, and covers the basics of getting started, digital and analog inputs/outputs, Neopixels, and putting projects together. It also includes an agenda and summaries of the Arduino UNO board and common sensors that can be used.
The most important for an architecture or civil engineer is to provide a comfortable and aesthetically beautiful building. This lecture contains all the specifications which are important for a drwaing
This lecture contains the detail of isometric projections of an object. This will improve your skills to draw isometric views which is the major part of engineering drawings.
Use of Instrument and Lettering in Civil Engineering DrawingAhmad Hassan
The document discusses guidelines for using instruments and lettering in technical drawings. It covers:
1. Classification of lines according to thickness, darkness, and shape and their appropriate uses. Very thick lines are used to show reinforcement, thinner lines for other features.
2. Guidelines for lettering including using capital letters, maintaining consistent height and spacing, and writing fractions and dimensions.
3. Proper use of instruments like T-squares and triangles to draw accurate horizontal and vertical lines and ensure alignments are perpendicular. Templates are also discussed.
This document discusses the key differences between model drawings and building drawings used in civil engineering. Building drawings must be done at a larger scale since objects are much bigger in real life. The scale used determines the reduction factor to relate actual sizes to drawing sizes. Common views shown in building drawings are plans, elevations, and sections. Plans show the layout and dimensions of elements from a top view. Elevations show the external appearance without dimensions. Sections provide cut views with full dimensions and details. Dimensioning and views are important for structural design. Examples of features shown include walls, windows, doors, floors, and roofs. Architectural design considerations include plot size, bye laws, covered area, and available funds.
The document defines different types of views used in architectural and building drawings. A plan is a top view drawn by assuming a horizontal cut just above the sill level. An elevation shows the front, back, or side of a finished building. A section is a cutaway view that shows both the superstructure and substructure with details. Plans, elevations, and sections are used to communicate different information about a building design.
DECODING JAVA THREAD DUMPS: MASTER THE ART OF ANALYSISTier1 app
Are you ready to unlock the secrets hidden within Java thread dumps? Join us for a hands-on session where we'll delve into effective troubleshooting patterns to swiftly identify the root causes of production problems. Discover the right tools, techniques, and best practices while exploring *real-world case studies of major outages* in Fortune 500 enterprises. Engage in interactive lab exercises where you'll have the opportunity to troubleshoot thread dumps and uncover performance issues firsthand. Join us and become a master of Java thread dump analysis!
A neural network is a machine learning program, or model, that makes decisions in a manner similar to the human brain, by using processes that mimic the way biological neurons work together to identify phenomena, weigh options and arrive at conclusions.
Most important New features of Oracle 23c for DBAs and Developers. You can get more idea from my youtube channel video from https://youtu.be/XvL5WtaC20A
How Can Hiring A Mobile App Development Company Help Your Business Grow?ToXSL Technologies
ToXSL Technologies is an award-winning Mobile App Development Company in Dubai that helps businesses reshape their digital possibilities with custom app services. As a top app development company in Dubai, we offer highly engaging iOS & Android app solutions. https://rb.gy/necdnt
Preparing Non - Technical Founders for Engaging a Tech AgencyISH Technologies
Preparing non-technical founders before engaging a tech agency is crucial for the success of their projects. It starts with clearly defining their vision and goals, conducting thorough market research, and gaining a basic understanding of relevant technologies. Setting realistic expectations and preparing a detailed project brief are essential steps. Founders should select a tech agency with a proven track record and establish clear communication channels. Additionally, addressing legal and contractual considerations and planning for post-launch support are vital to ensure a smooth and successful collaboration. This preparation empowers non-technical founders to effectively communicate their needs and work seamlessly with their chosen tech agency.Visit our site to get more details about this. Contact us today www.ishtechnologies.com.au
The Rising Future of CPaaS in the Middle East 2024Yara Milbes
Explore "The Rising Future of CPaaS in the Middle East in 2024" with this comprehensive PPT presentation. Discover how Communication Platforms as a Service (CPaaS) is transforming communication across various sectors in the Middle East.
Mobile App Development Company In Noida | Drona InfotechDrona Infotech
Drona Infotech is a premier mobile app development company in Noida, providing cutting-edge solutions for businesses.
Visit Us For : https://www.dronainfotech.com/mobile-application-development/
UI5con 2024 - Bring Your Own Design SystemPeter Muessig
How do you combine the OpenUI5/SAPUI5 programming model with a design system that makes its controls available as Web Components? Since OpenUI5/SAPUI5 1.120, the framework supports the integration of any Web Components. This makes it possible, for example, to natively embed own Web Components of your design system which are created with Stencil. The integration embeds the Web Components in a way that they can be used naturally in XMLViews, like with standard UI5 controls, and can be bound with data binding. Learn how you can also make use of the Web Components base class in OpenUI5/SAPUI5 to also integrate your Web Components and get inspired by the solution to generate a custom UI5 library providing the Web Components control wrappers for the native ones.
Microservice Teams - How the cloud changes the way we workSven Peters
A lot of technical challenges and complexity come with building a cloud-native and distributed architecture. The way we develop backend software has fundamentally changed in the last ten years. Managing a microservices architecture demands a lot of us to ensure observability and operational resiliency. But did you also change the way you run your development teams?
Sven will talk about Atlassian’s journey from a monolith to a multi-tenanted architecture and how it affected the way the engineering teams work. You will learn how we shifted to service ownership, moved to more autonomous teams (and its challenges), and established platform and enablement teams.
Flutter is a popular open source, cross-platform framework developed by Google. In this webinar we'll explore Flutter and its architecture, delve into the Flutter Embedder and Flutter’s Dart language, discover how to leverage Flutter for embedded device development, learn about Automotive Grade Linux (AGL) and its consortium and understand the rationale behind AGL's choice of Flutter for next-gen IVI systems. Don’t miss this opportunity to discover whether Flutter is right for your project.
Malibou Pitch Deck For Its €3M Seed Roundsjcobrien
French start-up Malibou raised a €3 million Seed Round to develop its payroll and human resources
management platform for VSEs and SMEs. The financing round was led by investors Breega, Y Combinator, and FCVC.
Measures in SQL (SIGMOD 2024, Santiago, Chile)Julian Hyde
SQL has attained widespread adoption, but Business Intelligence tools still use their own higher level languages based upon a multidimensional paradigm. Composable calculations are what is missing from SQL, and we propose a new kind of column, called a measure, that attaches a calculation to a table. Like regular tables, tables with measures are composable and closed when used in queries.
SQL-with-measures has the power, conciseness and reusability of multidimensional languages but retains SQL semantics. Measure invocations can be expanded in place to simple, clear SQL.
To define the evaluation semantics for measures, we introduce context-sensitive expressions (a way to evaluate multidimensional expressions that is consistent with existing SQL semantics), a concept called evaluation context, and several operations for setting and modifying the evaluation context.
A talk at SIGMOD, June 9–15, 2024, Santiago, Chile
Authors: Julian Hyde (Google) and John Fremlin (Google)
https://doi.org/10.1145/3626246.3653374
Enhanced Screen Flows UI/UX using SLDS with Tom KittPeter Caitens
Join us for an engaging session led by Flow Champion, Tom Kitt. This session will dive into a technique of enhancing the user interfaces and user experiences within Screen Flows using the Salesforce Lightning Design System (SLDS). This technique uses Native functionality, with No Apex Code, No Custom Components and No Managed Packages required.
INTRODUCTION TO AI CLASSICAL THEORY TARGETED EXAMPLESanfaltahir1010
Image: Include an image that represents the concept of precision, such as a AI helix or a futuristic healthcare
setting.
Objective: Provide a foundational understanding of precision medicine and its departure from traditional
approaches
Role of theory: Discuss how genomics, the study of an organism's complete set of AI ,
plays a crucial role in precision medicine.
Customizing treatment plans: Highlight how genetic information is used to customize
treatment plans based on an individual's genetic makeup.
Examples: Provide real-world examples of successful application of AI such as genetic
therapies or targeted treatments.
Importance of molecular diagnostics: Explain the role of molecular diagnostics in identifying
molecular and genetic markers associated with diseases.
Biomarker testing: Showcase how biomarker testing aids in creating personalized treatment plans.
Content:
• Ethical issues: Examine ethical concerns related to precision medicine, such as privacy, consent, and
potential misuse of genetic information.
• Regulations and guidelines: Present examples of ethical guidelines and regulations in place to safeguard
patient rights.
• Visuals: Include images or icons representing ethical considerations.
Content:
• Ethical issues: Examine ethical concerns related to precision medicine, such as privacy, consent, and
potential misuse of genetic information.
• Regulations and guidelines: Present examples of ethical guidelines and regulations in place to safeguard
patient rights.
• Visuals: Include images or icons representing ethical considerations.
Content:
• Ethical issues: Examine ethical concerns related to precision medicine, such as privacy, consent, and
potential misuse of genetic information.
• Regulations and guidelines: Present examples of ethical guidelines and regulations in place to safeguard
patient rights.
• Visuals: Include images or icons representing ethical considerations.
Real-world case study: Present a detailed case study showcasing the success of precision
medicine in a specific medical scenario.
Patient's journey: Discuss the patient's journey, treatment plan, and outcomes.
Impact: Emphasize the transformative effect of precision medicine on the individual's
health.
Objective: Ground the presentation in a real-world example, highlighting the practical
application and success of precision medicine.
Data challenges: Address the challenges associated with managing large sets of patient data in precision
medicine.
Technological solutions: Discuss technological innovations and solutions for handling and analyzing vast
datasets.
Visuals: Include graphics representing data management challenges and technological solutions.
Objective: Acknowledge the data-related challenges in precision medicine and highlight innovative solutions.
Data challenges: Address the challenges associated with managing large sets of patient data in precision
medicine.
Technological solutions: Discuss technological innovations and solutions
The Key to Digital Success_ A Comprehensive Guide to Continuous Testing Integ...kalichargn70th171
In today's business landscape, digital integration is ubiquitous, demanding swift innovation as a necessity rather than a luxury. In a fiercely competitive market with heightened customer expectations, the timely launch of flawless digital products is crucial for both acquisition and retention—any delay risks ceding market share to competitors.
14 th Edition of International conference on computer visionShulagnaSarkar2
About the event
14th Edition of International conference on computer vision
Computer conferences organized by ScienceFather group. ScienceFather takes the privilege to invite speakers participants students delegates and exhibitors from across the globe to its International Conference on computer conferences to be held in the Various Beautiful cites of the world. computer conferences are a discussion of common Inventions-related issues and additionally trade information share proof thoughts and insight into advanced developments in the science inventions service system. New technology may create many materials and devices with a vast range of applications such as in Science medicine electronics biomaterials energy production and consumer products.
Nomination are Open!! Don't Miss it
Visit: computer.scifat.com
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For Enquiry: Computer@scifat.com
Project Management: The Role of Project Dashboards.pdfKarya Keeper
Project management is a crucial aspect of any organization, ensuring that projects are completed efficiently and effectively. One of the key tools used in project management is the project dashboard, which provides a comprehensive view of project progress and performance. In this article, we will explore the role of project dashboards in project management, highlighting their key features and benefits.
2. What is Proteus?
Proteus is a software for microprocessor
simulation, schematic capture and printed circuit
board (PCB) design.
ISIS Stands for Intelligent Schematic Input System
and is used for drawing circuit diagrams etc.