This project aims to design a low-cost, microcontroller-based multi-function data acquisition card. The card will allow students to collect data for university projects at a lower cost than commercial data acquisition cards. It will use a PIC16F877A microcontroller to provide communication between the computer and card and control input/output ports. The hardware will include components like MAX1241, MAX232, ADC5621, 555 timer, and 74HCT573. Software like μVision Keil will be used to program the microcontroller and create a HEX file to burn onto the chip. Successful completion of this project could help reduce costs for data collection in student projects.
This a RECAP project overview slide deck prepared by Thang Le Duc (UMU), P-O Östberg (UMU) and Tomas Brännström (Tieto). It starts with an introduction and continues with a section on challenges for a self-orchestrated, self-remediated cloud system. It then presents the RECAP vision and use cases and finishes with a conclusion.
The Embedded system is a short type computer with a programmable logic unit, a memory unit, and peripheral input/output devices.Here I have discussed all details and information on embedded systems.
My presentation for the Green application hosting workshop.
Topic: how transparency in energy measurement leads to change in behavior.
http://kngs.wikidot.com/events:ws-schubergphilis/
RECAP at ETSI Experiential Network Intelligence (ENI) MeetingRECAP Project
This presentation was delivered by Johan Forsman (Tieto), Jörg Domaschka (UULM) and Paolo Casari (IMDEA Networks) at the ETSI Experiential Network Intelligence (ENI) Meeting in Warsaw, Poland, on April 12th, 2019. ETSI Experiential Networked Industry Specification Group (ENI ISG) work on defining a Cognitive Network Management architecture using Artificial Intelligence (AI) techniques and context-aware policies to adjust offered services based on changes in user needs, environmental conditions and business goals. The intention is that the use of Artificial Intelligence techniques in the network management system should solve some of the problems of future network deployment and operations. For more information, see https://www.etsi.org/technologies/experiential-networked-intelligence.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2021/09/may-2021-embedded-vision-summit-opening-remarks-may-27/
Jeff Bier, Founder of the Edge AI and Vision Alliance, welcomes attendees to the May 2021 Embedded Vision Summit on May 27, 2021. Bier provides an overview of the edge AI and vision market opportunities, challenges, solutions and trends. He also introduces the Edge AI and Vision Alliance and the resources it offers for both product creators and members, and reviews the day’s agenda and other logistics.
This a RECAP project overview slide deck prepared by Thang Le Duc (UMU), P-O Östberg (UMU) and Tomas Brännström (Tieto). It starts with an introduction and continues with a section on challenges for a self-orchestrated, self-remediated cloud system. It then presents the RECAP vision and use cases and finishes with a conclusion.
The Embedded system is a short type computer with a programmable logic unit, a memory unit, and peripheral input/output devices.Here I have discussed all details and information on embedded systems.
My presentation for the Green application hosting workshop.
Topic: how transparency in energy measurement leads to change in behavior.
http://kngs.wikidot.com/events:ws-schubergphilis/
RECAP at ETSI Experiential Network Intelligence (ENI) MeetingRECAP Project
This presentation was delivered by Johan Forsman (Tieto), Jörg Domaschka (UULM) and Paolo Casari (IMDEA Networks) at the ETSI Experiential Network Intelligence (ENI) Meeting in Warsaw, Poland, on April 12th, 2019. ETSI Experiential Networked Industry Specification Group (ENI ISG) work on defining a Cognitive Network Management architecture using Artificial Intelligence (AI) techniques and context-aware policies to adjust offered services based on changes in user needs, environmental conditions and business goals. The intention is that the use of Artificial Intelligence techniques in the network management system should solve some of the problems of future network deployment and operations. For more information, see https://www.etsi.org/technologies/experiential-networked-intelligence.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2021/09/may-2021-embedded-vision-summit-opening-remarks-may-27/
Jeff Bier, Founder of the Edge AI and Vision Alliance, welcomes attendees to the May 2021 Embedded Vision Summit on May 27, 2021. Bier provides an overview of the edge AI and vision market opportunities, challenges, solutions and trends. He also introduces the Edge AI and Vision Alliance and the resources it offers for both product creators and members, and reviews the day’s agenda and other logistics.
Find out what AggreGate can offer for Power Engineering Industry. Check our best features, projects and Case Studies.
More about Tibbo AggreGate solutions for Power Engineering here: http://aggregate.tibbo.com/industries/power-engineering.html
Io t and cloud based computational framework, evolutionary approach in health...owatheowais
The new Internet of Things paradigm allows for small devices with sensing, processing and communication capabilities to be designed, which enable the development of sensors, embedded devices and other ‘things’ ready to understand the environment. In this paper, a distributed framework based on the internet of things paradigm is proposed for monitoring human biomedical signals in activities involving physical exertion. The main advantages and novelties of the proposed system is the flexibility in computing the health application by using resources from available devices inside the body area network of the user. This proposed framework can be applied to other mobile environments, especially those where intensive data acquisition and high processing needs take place. Finally, we present a case study in order to validate our proposal that consists in monitoring footballers’ heart rates during a football match. The real-time data acquired by these devices presents a clear social objective of being able to predict not only situations of sudden death but also possible injuries.
This webinar is going to cover what is a digital twin and how all stakeholders can benefit from their functionality. You will learn how model-based systems engineering enables digital engineering. Your host will discuss use cases, a realistic look at digital engineering and digital twins, and how you can use Innoslate to get started.
The Agenda
Here's what we're covering.
What is a Digital Twin
Benefits of Digital Twin
The Digital Engineering Path Enabled by MBSE
AR + MBSE Software
A More Realistic Digital Twin
Getting You Started with Digital Twins
Question Answer Session
Find out what AggreGate can offer for Power Engineering Industry. Check our best features, projects and Case Studies.
More about Tibbo AggreGate solutions for Power Engineering here: http://aggregate.tibbo.com/industries/power-engineering.html
Io t and cloud based computational framework, evolutionary approach in health...owatheowais
The new Internet of Things paradigm allows for small devices with sensing, processing and communication capabilities to be designed, which enable the development of sensors, embedded devices and other ‘things’ ready to understand the environment. In this paper, a distributed framework based on the internet of things paradigm is proposed for monitoring human biomedical signals in activities involving physical exertion. The main advantages and novelties of the proposed system is the flexibility in computing the health application by using resources from available devices inside the body area network of the user. This proposed framework can be applied to other mobile environments, especially those where intensive data acquisition and high processing needs take place. Finally, we present a case study in order to validate our proposal that consists in monitoring footballers’ heart rates during a football match. The real-time data acquired by these devices presents a clear social objective of being able to predict not only situations of sudden death but also possible injuries.
This webinar is going to cover what is a digital twin and how all stakeholders can benefit from their functionality. You will learn how model-based systems engineering enables digital engineering. Your host will discuss use cases, a realistic look at digital engineering and digital twins, and how you can use Innoslate to get started.
The Agenda
Here's what we're covering.
What is a Digital Twin
Benefits of Digital Twin
The Digital Engineering Path Enabled by MBSE
AR + MBSE Software
A More Realistic Digital Twin
Getting You Started with Digital Twins
Question Answer Session
Prof. Mridul M. Panditrao, from his University/ medical College days, gives tips on how to write your synopsis for your dissertation after you have registered and started your MD/ MS training programme. he also gives ideas/ steps to come up with a well constructed synopsis. Very useful for the first year MD/ MS PG students
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
Design of a usb based data acquisition systemeSAT Journals
Abstract
Development of a multi-channel compact data – acquisition board, which collects real world analog (0-5 Volt dc) and digital data,
delivers them to a personal computer using a USB communication link. The DAQ board is based on microchip PIC microcontroller
(PIC18F2550). A GUI is developed on Visual Basic which displays the instantaneous analog and digital data. It can also be used for
generating the control action signal (manual) which could be delivered to the actuator through a DAC through the microcontroller.
Keywords: PIC Microcontroller, data acquisition, USB.
Graduate Research Assistant at Multimedia Processing Laboratory, University of Texas at Arlington. MS in EE with focus on Embedded Systems & Image Processing
Over the last decade many researchers have taken advantage of the technology boom related to the launch of the Arduino platform to make their own datalogging devices. Many of these developments ended with the first functional prototypes in which multiple electronic boards are mixed by wiring/soldering and then used in datalogging activities. In this study we present a new, simple, robust, and expandable datalogger board based on maker’s community integrations. Our datalogger board extends previous work in this area as we designed an Arduino Mega 2560 derivative integrated board that is compatible with existing developments but was also designed and implemented considering requirements such as low power consumption, expandability, and integration. Different tests were made so reliability in low temperatures and low energy needs are satisfied. Is expected that the scientific community can add this board to their tool set, as this board solves the energy problem and present an easy transition from handmade logger integrations.
There is a huge amount of data out there and a great deal of power and insight that we can gain from it — if we can just bring it all into focus and make it more manageable. Many industrial organizations are accomplishing this by building sophisticated HMI, SCADA, and MES projects with the Ignition Perspective Module.
1. BIRLA INSTITUTE OF TECHNOLOGY
MESRA-835215, RANCHI
Extension Centre Jaipur
Project synopsis
Project Title:
2. Designing of a Low cost Data Acquisition Card (DAQ).
Project Aim:
The main objective of this project is to design a
microcontroller-based, low-cost and multi-function data
acquisition card. Many kinds of projects in
Universities need data collection interfaces which greatly
increase the cost of project.
Project Guide: Mr. Snehanshu Shekhar
Student’s name: Preeti Gupta(6BE/4132/09)
Surbhi Gupta (6BE/4147/09)
Aditi Lakhotia (6BE/4103/09)
3. Introduction:
Using computer technology in the developing world,
are becoming increasingly common. Computers are
used in all areas of our lives with these developments.
In many control applications performed with
computers, the computers’ communication with the
external environment is very important.
• Data acquisition (DAQ) is the process of measuring
an electrical or physical phenomenon such as voltage,
current, temperature, pressure, or sound with a
computer.
• Data acquisition cards are needed in computer aided
analysis or control applications.
• A typical commercial DAQ card contains ADC and
DAC that allows input and output of analog and digital
signals in addition to digital input/output channels.
4. • In card design, PIC16F877A hosting several
integrated units is used.
OVERVIEW OF THE PROJECT:
Hardware Diagram
6. Methods:
In design, PIC16F877A, a microcontroller of
Microchip company, is used to provide
communication between computer and data
acquisition card and to control ports. Commands,
received from computer, are analyzed and
responded continuously in a loop. If microcontroller
receives a command, firstly analyses that and then
performs the request.
SOFTWARE USED:
• µVision Keil (v4): µVision Keil (version 4) provides
IDE for 8051 programming & is very easy to use.
When starting a new project, simply select the
microcontroller you use from the Device Database
and the µVision IDE sets all Compiler, Assembler,
Linker, and Memory options. It’s device database is
large which supports many ICs of the 8051 family. A
HEX file can be created with the help of Keil which is
required for burning onto chip. It has a powerful
debugging tool which detects most of the errors in
the program.
7. COMPONENTS USED:
• MAX1241
• MAX232
• ADC5621
• 555 Timer
• Microcontroller 74HCT573
• PIC 16F877A
References:
• National Instrument www.ni.com
• A modular and low cost data acquisition card
design with multitasking project
By:-Sevan Katrancioglu ,Kenan Savas,Hasan Erdal
Guide’s approval:
8. I hereby agree to supervise the above project as per the
norms of Birla Institute of Technology, Extension Centre,
Jaipur.
(Project Guide) ____________________