This document is a seminar report submitted by Nipun Ashokkumar Parikh in partial fulfillment of the requirements for a Bachelor of Technology degree in Computer Science and Engineering. The report provides an overview of the Raspberry Pi, including its history and conception, hardware components, software and operating systems, and applications. It describes the Raspberry Pi as a credit-card sized computer aimed at providing affordable computing to help teach programming concepts.
Seminar report on Raspberry Pi, submitted in SEMINAR subject of GTU Gujarat Technological University by Nipun Parikh from Bhagwan Mahavir College of Engineering & Technology
Seminar report on Raspberry Pi, submitted in SEMINAR subject of GTU Gujarat Technological University by Nipun Parikh from Bhagwan Mahavir College of Engineering & Technology
10 Popular Commercial Products using Raspberry Pi Compute ModulePallav Aggarwal
The Compute Module 3 is a Raspberry Pi 3 in a more flexible form factor, intended for industrial application
Learn about 10 popular products developed using Raspberry Pi compute module and bonus, four low-cost development board for the compute module.
If you are looking for Practical Embedded System Design Tips, read some of the articles here: https://pallavaggarwal.in/learn-embedded-system/
This technology is not in the market. It is expected that 2020 onwards it will be available in market. To know more about P-ISM please go through the last two links provided in the slide end. There are details of other ISM devices also.
An introduction to the Raspberry PI computer. More information and a video of the accompanying lecture by Professor Alan Mycroft from the Raspberry Pi foundation is available here:
http://blogs.it.ox.ac.uk/openspires/2012/03/31/a-taste-of-raspberry-pi-for-open-education-week-at-oxford-university/that supports this slideshare
A Presentation on raspberry pi. The newest presentation, it includes Raspberry Pi 2 Model B and Model A+.
Price comparison as well as technologies used.
10 Popular Commercial Products using Raspberry Pi Compute ModulePallav Aggarwal
The Compute Module 3 is a Raspberry Pi 3 in a more flexible form factor, intended for industrial application
Learn about 10 popular products developed using Raspberry Pi compute module and bonus, four low-cost development board for the compute module.
If you are looking for Practical Embedded System Design Tips, read some of the articles here: https://pallavaggarwal.in/learn-embedded-system/
This technology is not in the market. It is expected that 2020 onwards it will be available in market. To know more about P-ISM please go through the last two links provided in the slide end. There are details of other ISM devices also.
An introduction to the Raspberry PI computer. More information and a video of the accompanying lecture by Professor Alan Mycroft from the Raspberry Pi foundation is available here:
http://blogs.it.ox.ac.uk/openspires/2012/03/31/a-taste-of-raspberry-pi-for-open-education-week-at-oxford-university/that supports this slideshare
A Presentation on raspberry pi. The newest presentation, it includes Raspberry Pi 2 Model B and Model A+.
Price comparison as well as technologies used.
This list contains latest IEEE project abstracts based on Raspberry Pi and ARM processor for Electronics and communication, Electronics and Instrumentation, Electrical and Electronics, Information Technology students. This list contains few abstracts only. For more abstracts based on Embedded, Biomedical, Matlab, NS2, VLSI, Java, Android, .NET, PHP, visit www.softroniics.in or Call 9037291113
This ppt contains the introduction to raspberry pi.which is available for very cheap cost as well as consumes very less power. This is the Cheapest board can be used as a computer works on Linux platform designed by raspberry foundation which is a charity, and the aim to produce this board is to develop an interest of basic computer programming among the kids and adults ...
The rapidly advancing mobile communication technology and the decrease in costs make it possible to incorporate mobile technology into home automation systems. The aim of this project is to develop a system that will provide remote control of home appliances and also provide security against intrusion when the home host is not at home. We propose a mobile-based home automation system that consists of a mobile phone with windows or android platform, raspberry pi, topping pi for led instead of home appliance, fire sensor, and proximity sensor, relay. Led is controlled by the raspberry pi, which operates according to the user commands received from the mobile phone via Cortana (windows platform) and an application (android platform). In our proposed system the raspberry pi will receive command from cloud services like Microsoft Azure for Windows platform and MQTT for Android platform created by user from mobile app. We have also ensure the security aspects which includes intrusion detection using proximity sensor and fire alarm using fire sensor. All sensors are connected to raspberry pi. If any of the previously mention event occurs it will immediately inform user through text sms and also email notification.
Smart Wireless Surveillance Monitoring using RASPBERRY PIKrishna Kumar
This is a slide about the smart surveillance monitoring system using raspberry pi.
It includes the full details of the procedure , component description and the screenshots
The Raspberry Pi is a credit-card-sized single-board computer developed in the UK by the Raspberry Pi Foundation with the intention of promoting the teaching of basic computer science in schools
What is:
Credit card sized low cost computer used by solely or by integrating with other circuits.
Found by Raspberry Pi Foundation(trustee-Eben Upton)
Aiming student experiments with low investment.
The computer uses less power than a light bulb
System on a chip, a computer on a single low voltage chip
Full fledged Linux OS Installed
background:
Started the research in 2006.
Pi Foundation was responsible
Eben Upton, Pi Foundation trustee teamed with Universities, Students, Programmers and tied up with Industries.
First model was based on Atmel ATmega644 microcontroller assembled with a USB & HDMI
features:
Broadcom BCM2835 ‘System on a chip’(Soc)
Need SD card with an OS preloaded before booting the Raspberry Pi. Customized Linux Distribution supported .
GPIO to interconnect with other Circuit boards OS can interact with them
Main programming language-Python with supporting languages BBC BASIC, C, PERL
Variants:
2 models:model A & model B
Wings table of contents, abstract, acknowledgementFaizul Ikram
In recent years many Malaysian rock bands in the industry including ‘WINGS’ is hardly sustain in the industry, unlike in the era of 80s rock band which easily accepted by the audience. Acceptance of the current generation is showing less attention to local music rather than foreign music which was a phenomenon in Malaysia.
This research is to evaluate the acceptance rate of Malaysian audience and to assess their level of acceptance towards the local rock music especially in the era of 80s rock scene on our society today.
Monitor your car from the cloud! DIY Telematics and the Internet of ThingsTom Gersic
My Dreamforce session on DIY Telematics for OBD-II with a Raspberry Pi.
What if your car was connected to the Cloud, and had been logging sensor data for the past 30 days? What if it could automatically file a Case with your local dealership with the Diagnostic Trouble Codes from your car and all that log data attached? What if the Service department could give you a call to schedule an appointment to get it fixed, so you don’t even have to remember to call them? Since they have all the automotive log information they need to diagnose the problem before you even show up, they can even tell you what’s wrong over the phone and quote you an estimate for the repair.
Here’s a Raspberry Pi DIY project that does just that.
More info at: http://gersic.com/ive-connected-my-car-to-salesforce-com/
The Web of Things - Giving physical products a digital voice.EVRYTHNG
The slides of a webinar I gave on element14 (http://www.element14.com/community/events/4173), which gives a good introduction to the Web of Things and how it compares with the Internet of Things.
Also, I give a high-level, but technical, introduction to the EVRYTHNG Engine API and how to use it to build exciting applications to interact with physical products.
Supervisory Control and Data Acquisition (SCADA) system for Greenhouse Farm w...Parvesh Taneja
Supervisory Control and Data Acquisition (SCADA) system for Greenhouse Farm with internet of things (I.o.T.) architecture.
Automation of a greenhouse using Raspberry Pi. Controlling Humidity,Temperature. Controlling everything remotely using your browser.
ICD-10 Is Really Here: What Does That Mean To Compliance Officers?PYA, P.C.
PYA Principal Denise Hall presented “ICD-10 Is REALLY Here: What Does that Mean to Compliance Officers?” at the THA 2015 Fall Compliance Conference. The presentation helps providers get “in tune” with the latest in ICD-10 compliance:
* A brief discussion of ICD-10 and its impact on healthcare.
* Compliance risks with the transition to the ICD-10 system.
* Mitigation of compliance risk and denial activities during and post-implementation.
* ICD-10’s impact on value-based purchasing and quality-based payment models.
An-Najah National UniversityTelecommunications Engineering DepartmentPI-Phone Using Raspberry PI
Prepared by:
Raghad J Foqha
Supervisor:
Dr. Saed Tarapiah
Prepared by:
Raghad J Foqha
Supervisor:
Dr. Saed Tarapiah
Introduction.
Project Main Idea.
Project Main Components.
SWOT Analysis
Results
Conclusions and Recommendations
In this graduation project , a new hardware microcontroller called a Raspberry pi (RPI) will be used.
Making a call is possible by owning it.
The concept is making an interface between RPI features with another components allows sending standard AT commands for calling , hanging up.
Credit card size single board computer or a
Programmable PC.
Why?
Dynamic microcontroller, small PC.
Great tool for Learning Programming, Computers & Concepts of Embedded Linux, etc
Support for all Age Groups (School Children, College Undergraduates, Professional Developers, Programmers)
GSM\GPRS Module
Frequency-Band 850/ 900/ 1800/ 1900 MHz
Control via AT commands
Low power consumption
Python
Powerful modern computer programming language
Friendly and easy to learn
Open Source
Support many applications such as Web, Internet development
Ability to deal with the electronic control GPIO ports.
Using Voice Mode AT Commands
Using AT Calling Commands
Using AT Hanging Commands
RECOMMENDATIONS
Due to hard dealing with a raspberry pi , particularly in programming. We recommend using component which called Arduino Tre.
But it coming soon !
Why we recommend it ?
Arduino TRE Design builds upon the experience of both Arduino and raspberry pi. And combining the benefits of both community based boards. Arduino TRE final board will be available within a few months, pending results of Beta Testing Program.
Report Remote communication of Robotic module using lifaVatsal N Shah
LabVIEW (Laboratory Virtual Instrumentation Engineering Workbench) is the software which gives virtual existence of hardware, reduces its cost and hence termed as Virtual Instrumentation. For years, LabVIEW has enabled engineers and scientists to develop sophisticated autonomous systems. At its core, it is widely used for sensor and actuator connectivity and currently offers more than 8000 drivers for measurement devices. Furthermore, with new libraries for autonomy and an entirely new suite of robotics-specific sensor and actuator drivers. The movement of the robot is controlled by using LabVIEW. In the LabVIEW four different keys are assigned for the forward, backward, left and right movement of the robot.
The DC Motor is an attractive piece of equipment in many industrial applications requiring variable speed and load characteristics due to its ease of controllability. DC Motor will be interfaced with LabVIEW using an Arduino Uno board. Arduino Uno board plays the role of low cost data acquisition board. The speed of the DC motor will be set by creating a Graphic User Interface (GUI) in LabVIEW. LabVIEW will in turn pass this speed to the DC motor using a PWM pins on the Arduino Uno board. DC motor will move with the speed set by the user in LabVIEW.
1. Raspberry Pi
A Seminar Report
Submitted by
Nipun Ashokkumar Parikh
in partial fulfillment for the degree of
Bachelor of Technology
in
Computer Science & Engineering
At
Bhagwan Mahavir College of Engineering & Technology
Department of Computer Science & Engineering
(Affiliated to GTU, Approved by AICTE, New Delhi)
SURAT.
August 2014
2. Bhagwan Mahavir College of Engineering & Technology
Department of Computer Science & Engineering
(Affiliated to GTU, Approved by AICTE, New Delhi)
SURAT.
CERTIFICATE
This is to certify that the Seminar entitled “Raspberry Pi” submitted by Parikh Nipun Ashokkumar,
Enrollment No.:120060131006, towards the partial fulfillment of the requirements for the
Degree of Bachelor of Technology in Computer Science & Engineering of Bhagwan Mahavir
College Of Engineering & Technology is the record of work carried out by him under my
supervision and guidance. In my opinion, the submitted work has reached a level required for
being accepted for examination.
Date: 11/08/2014
Guide H.O.D
Mrs. Happy Patel Mrs. Twinkle Ankleshwaria.
Dept. of Computer Science & Engg., Dept. of Computer Science & Engg.,
BMCET, Surat. BMCET, Surat.
Signature of Guide Signature of H.O.D
3. ACKNOWLEDGEMENT
I would like to take this opportunity to bestow my acknowledgement to all the persons who
have directly or indirectly availed me in guiding my project.
I am grateful to my college and my university for giving us the opportunity to present project
on this topic which will be the first step for my bright future. The assiduous help given by
Mrs. Alpa Valand and Mrs. Happy Patel as my project guide has been an inevitable part in
the successful completion of my project. I sincerely thank her for her continuous support and
cooperation throughout the semester.
I would also like to thank Mr. Chetan Sharma for arranging a demo hardware for the project.
I would also like to thank Mrs. Twinkle Ankleshwaria (Head of Department, Computer
branch) for guiding me throughout the project and encouraging me.
And the most precious part of my life, my parents, who have showered their love and support
which can never be repaid but can be commemorated. I would also like to thank my elder
sister for giving her views and recommendations on the project. Without them this
achievement would not have been possible.
Nipun Ashokkumar Parikh
120060131006
Computer Science & Engineering
BMCET, Surat.
4. ABSTRACT
The computer is now not a luxury but a necessity in today’s world. The computer has now
become a personal computer with the introduction of microcontrollers and integrated
circuits. Raspberry Pi is a credit-card sized computer aimed at providing a computer to
everyone on the planet. It is aimed at teaching computer concepts while being low at price.
Raspberry Pi is intended to provide a base on which kids can learn programming while
enthusiasts can make various projects. It serves as an efficient base due to its low cost and
the number of interfaces available.
The Raspberry Pi can be used instead of a personal computer, but with some limitations due
to its limited processing power.
The main aim of this seminar is to study Raspberry Pi, and its applications. This seminar is
carried as a part of a subject in the curriculum of Computer Science of Gujarat Technological
University. This seminar is limited to study of the Raspberry Pi from various sources without
its practical implementation.
5. List of figures:
Figure no Description Page no
1 Osborne 1 Computer 3
2 Toshiba T1100 3
3 Commodore 64 system 5
4 Earliest prototype of RPi 6
5 Block diagram 8
6 GPIO connector 10
7 RCA Video connector 11
8 Status LEDs 12
9 Gertboard 17
10 Boot process 21
11 Applications: Home automation system 26
12 Applications: Arcade gaming machine 26
13 Applications: RPi inside robot 27
14 Applications: R2D2 27
15 Applications: Landline 28
16 Applications: Decoration lights 28
17 Comparison of RPi with competitors 29
List of Tables:
Table No Description Page no
1 Specifications 14-15
2 List of supported OS 23-24
6. Abbreviations:
Symbol Abbreviation
DIY Do It Yourself
GUI Graphical User Interface
SRAM Synchronous Random Access Memory
SoC System On Chip
GPIO General Purpose Input Output
UART Universal asynchronous receiver/transmitter
I2C Inter-Integrated Circuit
SPI Serial Peripheral Interface
DSI Display Serial Interface
MIPI Mobile Industry Processor Interface
USB Universal Serial Bus
CSI Camera Serial Interface
JTAG Joint Test Action Group
PCB Printed Circuit Board
RPi Raspberry Pi
HDMI High Definition Multimedia Interface
I2S Integrated Interchip Sound
RISC Reduced Instruction Set Computer
NOOBS New Out-Of Box Software
PCI Peripheral Component Interconnect
FPGA Field-Programmable Gate Array
7. TABLE OF CONTENTS
Chapter No. Title Page no.
1 Introduction 1
2 History of computers 2
2.1 Brief history of ultra-cheap and small
computers
2
2.2 History of embedded devices 3
3 Inception of Raspberry Pi 5
3.1 Idea to create Raspberry Pi 5
3.2 Initial design considerations 6
4 Hardware 8
4.1 Hardware layout 8
4.2 Brief description of the components on the Pi 9
4.3 Specifications 14
4.4 Brief description of System on Chip 15
4.5 Accessories 17
5 Software 19
5.1 Operating System 19
5.2 Boot process 19
5.3 NOOBS installer 22
5.4 Raspberry Pi compatible operating systems 23
6 Applications 25
6.1 Applications 25
6.2 Examples of projects using Raspberry Pi 26
6.3 Comparison of Raspberry Pi with competitors 29
6.4 Advantages & Disadvantages 30
Conclusion 32
References 33