The major challenge of visually impaired person is
in mobility, object identification and identificati
on of
space around him/her. The proposed RF Based Talking
Signage for Blind Navigation aims to provide a
universal electronic travel guide for the visually
challenged people. This system incorporates a user
friendly and versatile method called “Talking Signa
ge” that is implemented using android devices. The
system uses an Android application in the mobile ph
one which could deliver voice messages about the us
er
environment via a heterogeneous network. It can be
deployed in any dense environment so that blind
persons can fulfill their needs. The primary advant
age of the system compared to other system in the a
rea is
low cost, ease of transport, less power consumption
, lightweight, and it could be utilized by those pe
oples
who are technically challenged. The architecture pr
oposed in this paper clearly shows communication
between a mobile phone and a heterogeneous network
enabled with RF devices. We have implemented the
system in our university environment and the propos
ed system found to be a great success
Design and development of intelligent electronics travelling aid for visually...eSAT Journals
Abstract The dynamic nature of the environment poses a big challenge to the visually impaired in navigation. This compels most of the visually impaired persons in the developing countries, who generally do not get any technology support, to depend on the visual sense of others, thus, undermining their independence. The intelligent electronic travelling aid for the visually impaired (IETA-VI) designed and developed by the authors and reported here, intends to provide solution to the navigational challenges of the visually impaired individuals. The system utilizes the ultrasonic detection technology for detecting any obstacle in his/her path, and then converts the distance to the obstacle into voice using voice synthesis technology so as to inform the visually impaired user. The device uses GPS and GSM technologies to determine the location of the user and to send this location to his/her care givers on mobile phone, respectively. The device also recognizes the voice signals of the visually impaired when in distress, by making use of voice recognition technology and send SMS to his care givers giving his location and asking them to help him. In a moment of emergency, when the visually impaired requires the attention of his/her care givers, the device provides three alternatives: The first alternative it provides is an emergency key, which when pressed will automatically send the location of the visually impaired to the care givers. The second alternative is that the visually impaired shouts (gives a voice command), the device responds by sending the location of the visually impaired to the care givers. The third alternatives take care of the situation when the user is unconscious or cannot even speak. This is provided by the display device, which displays the names and contact details of his/her care givers, so that someone can offer a helping hand. KEYWORDS: Ultrasonic detection, Voice recognition, Voice synthesis, GPS, GSM.
Design and development of intelligent electronics travelling aid for visually...eSAT Journals
Abstract The dynamic nature of the environment poses a big challenge to the visually impaired in navigation. This compels most of the visually impaired persons in the developing countries, who generally do not get any technology support, to depend on the visual sense of others, thus, undermining their independence. The intelligent electronic travelling aid for the visually impaired (IETA-VI) designed and developed by the authors and reported here, intends to provide solution to the navigational challenges of the visually impaired individuals. The system utilizes the ultrasonic detection technology for detecting any obstacle in his/her path, and then converts the distance to the obstacle into voice using voice synthesis technology so as to inform the visually impaired user. The device uses GPS and GSM technologies to determine the location of the user and to send this location to his/her care givers on mobile phone, respectively. The device also recognizes the voice signals of the visually impaired when in distress, by making use of voice recognition technology and send SMS to his care givers giving his location and asking them to help him. In a moment of emergency, when the visually impaired requires the attention of his/her care givers, the device provides three alternatives: The first alternative it provides is an emergency key, which when pressed will automatically send the location of the visually impaired to the care givers. The second alternative is that the visually impaired shouts (gives a voice command), the device responds by sending the location of the visually impaired to the care givers. The third alternatives take care of the situation when the user is unconscious or cannot even speak. This is provided by the display device, which displays the names and contact details of his/her care givers, so that someone can offer a helping hand. KEYWORDS: Ultrasonic detection, Voice recognition, Voice synthesis, GPS, GSM.
Hand Motion Gestures For Mobile Communication Based On Inertial Sensors For O...IJERA Editor
This project presents system based on inertial sensors and gesture recognition algorithm for SMS or calling for old age people. Users hold the device to make hand gestures with their preferred handheld style. Hand motions generate inertial signals, which are wirelessly transmitted to a computer for recognition. Here DTW recognition algorithm is used for recognition of hand gestures. Zigbee is used at the transmission section of inertial device to transmit sensor values and at the receiver section of PC to receive values. Recognized gesture is send to the microcontroller for further processing which gives AT commands to GSM to selects the SMS or calling option to the person. GSM model is used for the SMS or calling. An accelerometer-based gestures recognition systems that uses only a single 3-axis accelerometer. 3-axis accelerometer recognizes gestures, where gestures here are hand movements. DTW algorithm is used in this project for recognition. The proposed DTW-based recognition algorithm includes the procedures of inertial signal acquisition, motion detection, template selection, and recognition. Here „a‟, „b‟, „c‟, „d‟, „e‟, „f‟, „g‟, „h‟, „o‟, „v‟ letters are recognized in this system . This system can be used for the emergency calling or emergency SMS by the old age people or blind people from the home.
Our future battle field system will have more difficulties to maintain security, because of increasing military competitive. Ability to understand, predict and adopt the vast array of inter-networked things is very difficult. Unwanted fire, unauthorized human intervention and other object movement will play major important role for affecting military environment. This project aims to help our future military environment by introducing new technology LoRaWAN in IoT (Internet of Things). LoRaWAN (Long Range Wide Area Network) is a state -of- art commercial of the self (COTS) technology. This project consist of sensors, embedded microcontrollers equipped with LoRaWAN, embedded processors equipped with LoRaWAN and cloud technology. By introducing this new technology in our future military environment we can easily find out criminal activities and fire hazards.
Mems Sensor Based Approach for Gesture Recognition to Control Media in ComputerIJARIIT
Gesture Recognition is the method of identifying and understanding meaningful movements of the arms, hands,
face, or sometimes head. It is one of the most important aspects in the field of Human-Computer interface. There has been a
continuous research in this field because of its ability for application in user interfaces. Gesture Recognition is one of the
important areas of research for engineers and scientists. Nowadays the industry is working on the different implementation for
the trouble free, natural and easy product which can be easy to handle. This paper proposed a method to work with motion
sensors and interpret the motion of hand into various applications in a virtual interface. The Micro-Electro-Mechanical
Systems (MEMS) accelerometers are used to capture the dynamic hand gesture. These sensors information is transferred to
the microcontroller from where these data are transferred wirelessly to the computer system for actual processing of the data
with the use of various algorithms.
“Helpdroid” we inspire by movie-Prema the
project we provide the accident detection in any place. We
provide the help to injuries peoples. When the car or bike
crash together then the GPS and GMS with the crash sensor
send the digital signal and send the message and call to near
police station, ambulance and there related persons.
Smartphone Remote Detection and Wipe System using SMSEditor IJCATR
The project based on mobile application which functions on an Android operating system. The objective of this which
enable the user to locate the mobile phone in a silent mode to General mode when it is misplaced as well as if it is lost and wipe the
data from the device. To create an account the user needs to provide his /her mobile number, a password and 4 trustworthy numbers
this completes the registration process. The application, which is still in a deactivation mode, will operate only when the phone is
misplaced and the user sends the set password/ pass code from one of the 4 trustworthy numbers to one’s own mobile number. This
will change the profile of the misplaced phone i.e. switch it from the silent mode to the sound mode. It will also send an
acknowledgement to the trustworthy number from which the user has sent the message. Furthermore, it will also provide the location
with and also if mobile is lost then we can take back up from another mobile by using same application, we can also wipe the data
remotely by sending the message.
Report for the voice navigation stick.Sanjana Vasu
The voice navigation stick used by the blind people makes use of Ultrasonic and IR sensors to detect obstacles, it also makes use of the GPS system to enhance navigation with the help of speakers, that enables the blind to be independent.
Hand Motion Gestures For Mobile Communication Based On Inertial Sensors For O...IJERA Editor
This project presents system based on inertial sensors and gesture recognition algorithm for SMS or calling for old age people. Users hold the device to make hand gestures with their preferred handheld style. Hand motions generate inertial signals, which are wirelessly transmitted to a computer for recognition. Here DTW recognition algorithm is used for recognition of hand gestures. Zigbee is used at the transmission section of inertial device to transmit sensor values and at the receiver section of PC to receive values. Recognized gesture is send to the microcontroller for further processing which gives AT commands to GSM to selects the SMS or calling option to the person. GSM model is used for the SMS or calling. An accelerometer-based gestures recognition systems that uses only a single 3-axis accelerometer. 3-axis accelerometer recognizes gestures, where gestures here are hand movements. DTW algorithm is used in this project for recognition. The proposed DTW-based recognition algorithm includes the procedures of inertial signal acquisition, motion detection, template selection, and recognition. Here „a‟, „b‟, „c‟, „d‟, „e‟, „f‟, „g‟, „h‟, „o‟, „v‟ letters are recognized in this system . This system can be used for the emergency calling or emergency SMS by the old age people or blind people from the home.
Our future battle field system will have more difficulties to maintain security, because of increasing military competitive. Ability to understand, predict and adopt the vast array of inter-networked things is very difficult. Unwanted fire, unauthorized human intervention and other object movement will play major important role for affecting military environment. This project aims to help our future military environment by introducing new technology LoRaWAN in IoT (Internet of Things). LoRaWAN (Long Range Wide Area Network) is a state -of- art commercial of the self (COTS) technology. This project consist of sensors, embedded microcontrollers equipped with LoRaWAN, embedded processors equipped with LoRaWAN and cloud technology. By introducing this new technology in our future military environment we can easily find out criminal activities and fire hazards.
Mems Sensor Based Approach for Gesture Recognition to Control Media in ComputerIJARIIT
Gesture Recognition is the method of identifying and understanding meaningful movements of the arms, hands,
face, or sometimes head. It is one of the most important aspects in the field of Human-Computer interface. There has been a
continuous research in this field because of its ability for application in user interfaces. Gesture Recognition is one of the
important areas of research for engineers and scientists. Nowadays the industry is working on the different implementation for
the trouble free, natural and easy product which can be easy to handle. This paper proposed a method to work with motion
sensors and interpret the motion of hand into various applications in a virtual interface. The Micro-Electro-Mechanical
Systems (MEMS) accelerometers are used to capture the dynamic hand gesture. These sensors information is transferred to
the microcontroller from where these data are transferred wirelessly to the computer system for actual processing of the data
with the use of various algorithms.
“Helpdroid” we inspire by movie-Prema the
project we provide the accident detection in any place. We
provide the help to injuries peoples. When the car or bike
crash together then the GPS and GMS with the crash sensor
send the digital signal and send the message and call to near
police station, ambulance and there related persons.
Smartphone Remote Detection and Wipe System using SMSEditor IJCATR
The project based on mobile application which functions on an Android operating system. The objective of this which
enable the user to locate the mobile phone in a silent mode to General mode when it is misplaced as well as if it is lost and wipe the
data from the device. To create an account the user needs to provide his /her mobile number, a password and 4 trustworthy numbers
this completes the registration process. The application, which is still in a deactivation mode, will operate only when the phone is
misplaced and the user sends the set password/ pass code from one of the 4 trustworthy numbers to one’s own mobile number. This
will change the profile of the misplaced phone i.e. switch it from the silent mode to the sound mode. It will also send an
acknowledgement to the trustworthy number from which the user has sent the message. Furthermore, it will also provide the location
with and also if mobile is lost then we can take back up from another mobile by using same application, we can also wipe the data
remotely by sending the message.
Report for the voice navigation stick.Sanjana Vasu
The voice navigation stick used by the blind people makes use of Ultrasonic and IR sensors to detect obstacles, it also makes use of the GPS system to enhance navigation with the help of speakers, that enables the blind to be independent.
Blind Stick Using Ultrasonic Sensor with Voice announcement and GPS trackingvivatechijri
for blind individuals. Basically, the ultrasonic detector is enforced within the walking stick for detection the obstacles ahead of the blind/impaired persons. If there are any obstacles, it'll alert the blind man to avoid that obstacles and therefore the alert in Our project proposes a low-priced walking stick supported latest technology and a brand-new implementation are created for economical interface the shape of voice announcement and buzzer to form a lot of helpful the stick is additionally mounted with the water detector that detects and alerts the blind if any wetness content is present to avoid slippery methods. Daily in several aspects so as to produce versatile and safe movement for the individuals. During this technology driven world, wherever individuals try to measure severally, this project propose a low-priced stick for blind individuals to achieve personal independence, in order that they will move from one place to a different simply and safely. A conveyable stick is style and developed that detects the obstacles within the path of the blind using sensors. The buzzer and vibration motor are activated once any obstacle is detected. Additionally, the stick is provided with GPS and SMS message system. GPS system give the knowledge relating to the situation of the blind man using the stick with his relations. SMS system is employed by the blind to send SMS message to the saved numbers within the microcontroller just in case of emergency.
VISUALLY IMPAIRED PEOPLE MONITORING IN A SMART HOME USING ELECTRONIC WHITE CANEijcsit
The monitoring of visually impaired people is important in order to help them to travel safely. Then, many
research works implement some travel aids. The proposed techniques are mostly based on the use of a
white cane. This work introduces an electronic white cane based on sensors' technology. The proposed
electronic cane helps its user to detect obstacles within two meters on the ground or in height. Once the
obstacle is detected, the system sends vocal instructions via a Bluetooth headset to alert the person
concerned. The ultrasonic and infrared sensors have been mounted on the white cane in order to provide it
with the necessary intelligence. A raspberry pi performs the processing of the data. The proposed system
also suggests using a mobile application to track the visually impaired in real-time. This application has a
function that allows you to trace the visual patient's route. This is important to detect the possible cause of
damage to patients during their travels. We use Python as programming language for electronic devices.
The mobile application is Android. Though, the WEB application is a REST API developed using Python
and NodeJs. The system is implemented and tested. The result shows the efficacity of the proposed system.
The monitoring of visually impaired people is important in order to help them to travel safely. Then, many
research works implement some travel aids. The proposed techniques are mostly based on the use of a
white cane. This work introduces an electronic white cane based on sensors' technology. The proposed
electronic cane helps its user to detect obstacles within two meters on the ground or in height. Once the
obstacle is detected, the system sends vocal instructions via a Bluetooth headset to alert the person
concerned. The ultrasonic and infrared sensors have been mounted on the white cane in order to provide it
with the necessary intelligence. A raspberry pi performs the processing of the data. The proposed system
also suggests using a mobile application to track the visually impaired in real-time. This application has a
function that allows you to trace the visual patient's route. This is important to detect the possible cause of
damage to patients during their travels. We use Python as programming language for electronic devices.
The mobile application is Android. Though, the WEB application is a REST API developed using Python
and NodeJs. The system is implemented and tested. The result shows the efficacity of the proposed system.
Modernization of railways has forever been an issue focused on the development of the fundamental infrastructure of a nation. Since the railways represent one of the most effective modes of transport offered to the people, It is important to keep a check on the security issues that are arising in today’s world. According to the need there must be an up gradation in systems we use. One such up gradation is that the role of Artificial Intelligence and e ticketing that is achieved with the assistance of face recognition technology. This technology has been extensively employed as a biometric method and hence can be used for passenger verification. Leman Kirme | Vivek Jha | Punit Chauhan | Soumya Ranjan Mohanty | Rahul Ghode "Smart Verification of Passenger using AI" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-1 , December 2020, URL: https://www.ijtsrd.com/papers/ijtsrd38002.pdf Paper URL : https://www.ijtsrd.com/engineering/information-technology/38002/smart-verification-of-passenger-using-ai/leman-kirme
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
1. International Journal on Cybernetics & Informatics (IJCI) Vol. 4, No. 2, April 2015
DOI: 10.5121/ijci.2015.4217 177
RF BASED TALKING SIGNAGE FOR BLIND
NAVIGATION
Aswathy V R1
, Dilraj. N2
,Sethuraman Rao3
Amrita Center for Wireless Networks and Applications, Amrita Vishwa Vidyapeetham,
Amritapuri, Kollam, India
ABSTRACT
The major challenge of visually impaired person is in mobility, object identification and identification of
space around him/her. The proposed RF Based Talking Signage for Blind Navigation aims to provide a
universal electronic travel guide for the visually challenged people. This system incorporates a user
friendly and versatile method called “Talking Signage” that is implemented using android devices. The
system uses an Android application in the mobile phone which could deliver voice messages about the user
environment via a heterogeneous network. It can be deployed in any dense environment so that blind
persons can fulfill their needs. The primary advantage of the system compared to other system in the area is
low cost, ease of transport, less power consumption, lightweight, and it could be utilized by those peoples
who are technically challenged. The architecture proposed in this paper clearly shows communication
between a mobile phone and a heterogeneous network enabled with RF devices. We have implemented the
system in our university environment and the proposed system found to be a great success.
KEYWORDS
RFdevice;Android app;Visually impaired; Indoor navigation; nesC language
1. INTRODUCTION
According to World Health Organization 285 million people are visually impaired worldwide: 39
million are blind and 246 million have low vision due to various reasons [2]. Blindness makes
their life despondent because they are not able to pursue a good education since study materials
available in Braille are very expensive. Mobility and travel is highly visually oriented with
signage in ink print. There is no possibility that this information can be provided to a blind person
in Braille. If there is a device which could deliver information about the user environment then it
could assist them to move around independently, therefore they could achieve many things in
their life which is not feasible at present.
There are systems which are using video sequence learning algorithm and RFID technologies;
both are very costly, heavy weight, inconvenient to carry, not circumstantial and need internet
accessibility always. This makes blind people to keep away from using assistive technology,
refer Figure 1 . So here we are proposing a low cost, easy to carry, less power consuming,
lightweight system that could deliver voice messages through mobile phone about the user
environment. Hence the proposed system solves above mentioned problems to a great extent.
2. International Journal on Cybernetics & Informatics (IJCI) Vol. 4, No. 2, April 2015
178
Figure 1. Assistive technology usage:statistics [1]
The main components in the system are a waist belt consisting of Micaz mote, mda100, Blue link
Silver Bluetooth module and an Android mobile phone. The system uses Micaz mote which is
placed in the location for identification and another in the waist belt of the user. The motes will
communicate through Zigbee and the information will be handed over to the mobile through
Bluetooth via Blue link silver Bluetooth module. The background application running inside the
phone will identify the information came from Bluetooth as a unique id and the id is now cross
checked with the database in the mobile. Information which is saved in the database in the mobile
phone for the given id will be sent to the text to speech module and is now played through the
mobile. Thus the visually challenged will be able to identify the object and spaces around him/her
accurately.
The remaining part of this paper is organized as follows: section II describes related works in the
area of blind navigation in indoor and outdoor environment. Detailed system architecture is
illustrated in section III. Section IV discusses about the algorithms developed. Section V explains
the results and discussions. Section VI concludes with future research ideas.
2. RELATED WORK
The article [3] describes about a navigation tool called smart walking stick for visually challenged
person. The framework can be utilized to catch deterrents, pit, water before visually impaired, and
discovering area so that route challenges of visually impaired can be lessened. At present blind
people are commonly using white cane which works on the basis of tactile-force feedback or
guide dogs. The problems with white cane are it could detect only solid obstacles, heavier, can’t
be folded and its range is very limited. In the case of guide dog, it is very costly and reacts only
to those situations in which it was trained.
The smart stick is equipped with sensors to give information about the environment. Different
components used in this system are ultrasonic sensor, water sensor, pit sensor, GPS receiver,
level converter, driver, vibrator, voice synthesizer, keypad, speaker, pic controller and battery.
GPS technology is integrated with pre-programmed locations in the memory to determine the
optimal route to be taken. Microcontroller stores the data of the current location that it receives
from the GPS. Then its compared with the destination location that user entered by keypad.
3. International Journal on Cybernetics & Informatics (IJCI) Vol. 4, No. 2, April 2015
179
Using this information, the system can trace out the distance from the destination and produce
alarm to alert the user in advance. Ultrasonic sensors could detect objects whose width or
diameter is not less than 3cm.
The result of experiments conducted with this technology shows that the water sensor could
detect presence of water only if the water level crosses 0.5 cm .That is the stick must be dipped in
the water. The experiment is done only by storing four destination places in the memory.
Limitations of this system are the following.
• This system could not be used for indoor navigation.
• The person could travel to only those places which are stored in the memory.
• The water sensor could detect the water by dipping stick into it.
• It is unable to find out locations or spaces inside building.
• It is not telling the speed of approaching vehicle or obstacle.
• Need high memory for route information storage.
• If satellite signals are weak then the person could not find out his location.
The system RF based talking signage for visually challenged is entirely different from this
system, no methods or ideas are similar to that used in Smart walking stick.
Article [4] by Sakmongkon, Chumkamon presents a system using RFID technology to provide
location information as well as information about shortest path to the destination .This system is
proposed mainly to overcome the inability of GPS and also to reduce the power consumption of
components in other navigation and location identification technology.
The RFID tags that contain RFID id and tag location will embed into the footpath where the blind
used to walk. The RFID reader in user cane will read it, along with this information; user will
input the destination place and pass it into MCU. Using GPRS technology, the information will
pass into the server. After receiving it, server will calculate the shortest distance between current
location and destination and send back to MCU. The MCU will send this information into MMC
(multimedia card memory).From there the information is passed into a speaker. Thus the user
comes to know about his/her location and route to destination place. Energy saving is done by
activating RFID tag only in the presence of a tag reader.
The assumptions here are that the problem with delay and system size doesn’t affect the user even
though it is affecting the overall performance. Other disadvantages of the system are the
following.
• The RFID tags must be embedded all along the foot path where the blind used to walk.
•GPRS technology is affected with cold start cycle problem.
• It will take time to access the information from a MMC
• GPRS can’t be used because of the cost factor involved.
• For embedding along the footpath, 1000s of RFID tags will be required.
• Delay is high.
• Server needs to store bulk amount of data.
• Prone to server failure.
• Connectivity problem.
• Tag and reader must be at close proximity.
These issues can be explained to some degree by utilizing the proposed system. Idea of sending
id to a server and taking information from there using GPRS technology is modified in this
application by sending id to mobile phone and taking information from database inside the mobile
4. International Journal on Cybernetics & Informatics (IJCI) Vol. 4, No. 2, April 2015
180
phone. Thus problems related to delay, connectivity, etc. are solved, and there is no cost for
sending data.
In another work [5] tells about a system which helps blind for navigation. It consists of vibrators,
ultrasonic sensors mounted on shoulders of user, and sensors mounted on cane. The system will
provide information about distance of overhanging obstacle in real time. It could detect obstacle
from 0.03 to 6 meters and operates by sending an ultrasound pulse. This pulse will be reflected
from an obstacle in the path. From the time difference between the outgoing transmitted pulse and
its echo being received, distance is calculated. The information is then relayed to the blind in
some vibro tactile way and speech way for obstacle detection.
Another method is using micromap. It has two modes of operation record and playback. In the
record mode the user will store all the information about his routes and when he turns right he
will also store the right turn instruction in the microcontroller memory. In the playback mode, the
aid measures again the distance travelled by the user and if it is the same as that of the stored
distance then it indicates the user to take a right turn [6].
This system is proposed to overcome the problem in other navigation technologies, which are not
able to detect the overhanging obstacle. The problems in this system are
• Obstacle detection is not done in hemispherical approach.
• Person using this system is not able to identify different spaces inside a building. Using this
system it could identify only the routes and obstacle.
• Since the system is using large number of sensors, energy consumption is high.
• The person has to enter the name of the destination through keypad. This will be difficult for a
blind person.
• Large amount of memory is needed.
Paper [7] presents a system for blind which could help in independent mobility in an unknown
environment without any manual assistance. Features of the system are object recognition, log
records of all users tag access, user track information and emergency button. In this system user
has a RFID reader module with a microcontroller attached into the cane, Zigbee transceiver for
transmitting the tags information and TTS for playing information to the user. On the server side
Zigbee transceiver is used for wireless communication.
In this technique, RFID passive tag is deployed on the path for object recognition in the house or
building. RFID tags will be installed in the floor of the pathway. The RFID reader in the blind
cane will read the id from the tag on the object or in the floor and passed to the server using
Zigbee. Server will resend the information corresponding to the Id to the RC8660FP TTS module
where the received text is translated into speech and informed to the user via head phone. This
system also contains an emergency button. When user presses the button, information will be sent
to the administrator of the server. The administrator tracks the user by using last retrieved
information from the server. Thus he could send manual help for blind person when he is in
trouble [6].
System is experimented with 30 tags to form a grid over the path. Out of 30 Tags, 20 tags contain
Tag ID and its path location details and remaining10 tags contain Tag ID and attached objects
details. All the tags are placed at the path location and at the objects. After placing the tags
VIAS database is updated with Tag ID and details associated with each Tag[8].
The proposed system, RF Based Talking Signage for Visually Challenged is not using sensors.
The system is able to identify different spaces inside the building and able to provide all
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information about the location which are prerecorded. The system is easy to carry since it is
implemented using a mobile phone, a belt attached with motes and its supporting elements which
can be worn at the side of the waist belt. It is also not using any GPS technology. The system is
of low cost since we are using the users’ mobile phone to implement the application. In future
this system can be extended for outdoor use. Storage memory is not restricted, we are able to
store maximum amount of information that is needed for blind. Zigbee communication
technology is used between transmitter and receiver rather than Bluetooth communication to
avoid pairing problems. Since it is using the database inside the phone, it’s not affected with
connectivity problem or server failure or no delay will occur. System is using Bluetooth to get
information from the mote which is attached to the location. The RFID mote using will be
embedded into a location wherever the user need to identify, like coffee shop, escalator area, class
rooms, office rooms etc. Communication range can be extended up to 30m, according to the user
need. In talking signage system no sensors are used and there is no need to give any input to the
system. The system will automatically send information about the current location and deliver a
voice message about the location.
3. ARCHITECTURE AND DESIGN
The proposed system consists of wall mounted RF transmitter, a user module in the waist belt and
an application installed user’s Android mobile phone. The minimum requirements for Android
are a 200 MHz processor, 32MB RAM, and 32MB of storage.
3.1 User module
The user module consists of receiver RF device, Bluetooth module [10], and MDA 100 [11].The
use case diagram of the system is shown below refer Figure 2.
Figure 2. Use case diagram
The receiver RF device used here is a Micaz mote [9]. It is programmed to receive beacons from
the RF transmitter mote. Here the transmission power is adjusted to 3milliVolt to avoid
interference with adjacent RF modules. The detailed components interaction diagram is shown
below refer Figure 3
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Figure 3. Devices communication
In order to translate Zigbee information into Bluetooth information a Bluetooth module called
Blue link silver Bluetooth module is used.
3.1.1 Blue Link Silver Bluetooth Module
In order to built a communication between Bluetooth module and the receiver mote the baud rate
must be same, so the mote is programmed into a baud rate of 115200 bps. The module is shown
in the figure 4.
3.1.1.1.Specifications
Figure 4. Blulink Silver Bluetooth Module
• It acts as an UART.
• 3V Power supply
• Baud rate 115200.
• 5 pins are Vcc, GND, TX, RX, Reset
• Bluetooth core V 2.0 compliant
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3.2 MDA 100
It is used to make an interface between Micaz and Bluetooth module refer Figure 5. It act as a
data acquisition board.
Figure 5. MDA 100
4. ALGORITHM FOR TRANSMITTER AND RECEIVER
The language used to program the mote is nesC in Linux platform. The algorithm used for
transmitter and receiver are the following.
4.1 Transmitter
Step1: Start the radio.
Step2: Start the timer
Step3: When the timer fired, create the packet and set node id.
Step4: Set the power.
Step5: Broadcast the packet.
Step 6: If successfully sent toggle led.
4.2 Receiver
Step 1: Adjust the baud rate so that it could
communicate with the Bluetooth module.
Step2: Start the radio and Std control
Step3: Extract the payload and check whether the received id is needed and sent to the
UART
4.3 Android application
Step1: Get the Bluetooth Adapter. It is required
for all Bluetooth activity.
Step 2: Call the method isEnabled() to find the other Bluetooth enabled devices.
Step 3 : getBondedDevices () .To see already bonded devices
Step 4: call the method startActivityForResult(Intent, int) to make the device discoverable
Step 5: For connecting devices, one will be a server by using BluetoothServerSocket.
The server socket will listen for incoming connection requests.
Step 6: BluetoothSocket help to share data between devices.
Step 7: Read data from UART
Step 8: Check if data is needed
Step 9: Create a popup view.
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Step10: Set background images and other animations
Step11: Send data to Text to speech module
4.4 Flow chart explaining working of the system
Flowchart of the working system is shown in figure 6.
Figure 6.Flowchart of System
5. RESULTS AND DISCUSSION
As previously noted, the purpose of this research work was to build an RF based blind navigation
system for indoor navigation. The application developed will search for a Bluetooth enabled Blue
Link Silver module in the user module. When accept for connection is given, it will begin to
receive data from the Bluetooth module. The GUI of the developed application having
background of floor plan is shown below refer Figure 7.
Figure 7. Scan for device
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The first figure shows the paring up with Bluetooth module. The window shows that a unique id
‘1’ is received from the user module. This number represents that the person is in front of
communications lab. For convenience a unique id is given to represent similar areas of a building
refer Figure 8.For example, all wash rooms are provided with the same id.
Figure 8. Located place
Bluetooth module is paired with the Bluetooth in the mobile phone. The background talking
signage application retrieves the corresponding message for the unique id received and sends it to
text to speech module in the phone. The message is now delivered as voice message .Thus the
user is able to locate his/her current place. The complete experimental setup is shown in Figure
9.Two micaz motes are used as transmitters and the one which is attached with bluetooth module
will act as receiver. The tab shown in figure will receive information from the receiver mote and
deliver voice message.
Figure 9. Experimental Setup
The system was tested by implementing it on the corridor of our institution. Three rooms such as
one conference hall, one lab and one staff room were instrumented with the device. The person
with the user module and an android tab with the application installed are able to recognize the
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rooms accurately. The experiment is repeated with fitting the device in ten other rooms of which
some of them are close to each other and others not. The person is able to discover the rooms
accurately without any interference from the motes in nearby rooms.
6. CONCLUSION AND FUTURE WORK
The RF system using android phone could help blind people with indoor navigation. The working
of the system is explained in detail in this document. An installed Android application in his/her
phone and the lightweight user module in waist belt will help them to identify locations where
they are standing. RF based communication helps them to connect with wall mounted devices
easily since RF has an omni directional coverage. Users’ phone successfully delivered voice
message about the location based on the information received from the wall mounted RF
transmitter. For experimentation we used mote but in large scale production we can develop an
RF device of less cost.
Future work can be done by adding exact routing information about the user environment. This
can be performed by making an indoor routing map of the construction and adding the
information into android application, using additional sensors like accelerometers can be used to
locate the person and detect obstacles around him. Alert messages can also be given when the
user deviates from the exact path and when the system detects obstacles. The other future work
includes optimizations in the design of the device and user study covering larger varied
proportions of visually impaired persons so as to increase the usability of system as a product.
ACKNOWLEDGEMENT
We extend our sincere thanks to Mr.Harish kotyian of Reserve Bank of India for all the support
and suggestions from his visually challenged perspective.
REFERENCES
[1] “Assistive technology usage,” http://www.uaa.alaska.edu/dss/information/images/
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[4] S. Chumkamon, P. Tuvaphanthaphiphat, and P. Keeratiwintakorn, “A blind navigation
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[9] “Micaz mote,” http://www.openautomation.net/
[10] “Blue link silver bluetooth modem,” http://www.rhydolabz.com/
[11] “Mda100,” http://www.memsic.com/wireless-sensor-networks/MDA100/
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AUTHORS
Aswathy V R received her MCA from CHMM College, Kerala, India in July 2012. She is
currently pursuing MTech in Wireless Networks and Applications from
AmritaVishwaVidyapeetham, Kerala, India. She is currently working on Blind navigation
based project and her area of interest includes computer networking and wireless security.
Prof. Sethuraman Rao is an associate professor at Amrita Center for Wireless Networks
and Applications, Amrita University, Kollam, Kerala, India. He holds a Masters degree in
Computer Science and a Bachelor's degree in Mechanical Engineering from IIT Madras,
India. He has over 20 years of international experience in the networking industry having
held technical and management positions at Juniper Networks, Alcatel-Lucent and a few
startups. His areas of interest include wired and wireless LANs, wireless security,
software engineering and network management.
Dilraj N. currently serves as a Research Associate at the Amrita Center for Wireless
Networks & Applications (Amrita WNA), Amritapuri Campus. He completed his M. Tech.
in Wireless Networks and Applications, Master of Science in Electronics.