IRJET- Advanced Voice Operating Wheelchair using Arduino

2019

The idea of using voice activated technology for controlling the motion of the wheelchair is to help many people with disabilities especially quadriplegics who do not have the dexterity necessary to control a joystick on an electrical wheelchair. The aim of this study is to implement an interesting application using small vocabulary word recognition system. The methodology adopted is based on grouping a microprocessor with a speech recognition development kit for isolated word from a dependent speaker. The resulting design is used to control a wheelchair for a handicapped person based on the vocal command and furthermore the user can select either slow or fast speed to move the system. This speed selection is in important for safety and extra maneuverability of the user. For example, if the user need only to move in a short distance or to approach object, he should use the slow speed. This paper describes the design and development of the motion control using voice recognition for a...

https://ijshr.com/IJSHR_Vol.5_Issue.2_April2020/IJSHR_Abstract.0033.html, 2020

Most of the disabled people usually depend on others in their daily life especially in moving from one place to another. For the wheelchair users, continuously they need someone to help them in getting the wheelchair moving. By using a wheelchair control system they become more independent. The moto of this research project is to design and fabricate a voice controlled wheelchair for physically disabled people. The wheelchair control system which deploys a voice recognition system for triggering and controlling all its movements. It integrates a microcontroller, voice recognition through Google assistant, motor control interface board to move the wheelchair. By using the system, the users are able to operate the wheelchair by simply speaking and commanding through Google assistant. The basic functioning process includes forward and reverse direction, left and right turns and stop. It uses a PIC controller manufactured by Microchip Technology to control the system operations. It communicates with the voice recognition through Google assistant and works with the commands which is saved as the number system directed from the Ada-fruit cloud. The speech is given and then determines the corresponding output command to drive the left and right motors. To finish this task, an assembly language program is written and stored in the controller's memory.

2016

This paper touches the life of people with various kinds of disability; especially quadparalysis patients who need help at every step. Multipurpose voice controlled wheelchair is the best solution for those people. The wheelchair can serve the patients daily needs without continuous help from others. All commands are implemented just by the patient voice orders. The novelty of this wheelchair lies in its ability to turn into a bed, can rise up by 100cm, can move everywhere and at any direction, have a fan in the seat to refresh the air to protect the patient from ulcers and finally the patient and his family will not suffer any more from going to the bathroom or when taking a shower. Keywords—component; quad paralysis patients; Voice controlled Wheelchair

International Journal of Scientific Research in Science and Technology, 2021

Many disabled people usually rely on others in their standard of living especially in getting from one place to a different. To use wheelchair, they have someone to assist them in moving the wheelchair. Having a wheelchair system will help handicapped persons become independent. The system could be a wireless wheelchair system with a voice recognition system for triggering and controlling all its movements. The wheelchair responds to the voice command by user to perform any movement. It integrates a microcontroller, android phone, control interface board to maneuver the wheelchair. By using the system, users are able to operate the wheelchair by simply talking to wheelchair microphone. the essential movement functions includes forward and reverse direction, left and right turns and stop. It utilizes Renesas Microcontroller to manage the system operations. It communicates with the voice recognition processor to detect word spoken and so determines the corresponding output command to ...

IRJET, 2020

Many physically disabled users are unable to operate a powered wheelchair safely, without causing harm to themselves, others, and the environment. Human interacting wheelchairs that help out or replace user control have been developed to make available for these users, utilizing systems and algorithms from autonomous robots. Even though a constant period of research and development of robotic wheelchairs, there are very few available commercially. Developing a navigation system that is intended at being retro-fitted to powered wheelchairs. The navigation system developed takes a systems engineering approach, integrating many existing open-source software projects to deliver a system. The navigation system introduced in this opinion is aimed at operating in an free indoor environment, and requires no a priori information about the environment. The key components in the system are: obstacle avoidance, map building, localization, path planning, and autonomously travelling towards a goal. The test electric wheelchair was instrumented with the following: a laser scanner, wheel encoders, camera, and a variety of user input methods.

2015

In this work, in order to support physically handicapped persons a low cost voice controlled wheelchair is proposed. The person can control the wheelchair by voice commands. This paper presents the proposal, design and implementation of a microcontroller based voice controlled wheelchair. As speech is the preferred mode of operation for human being, this work intends to make the voice oriented command words for controlling wheelchair. Voice recognition module has to be added to the wireless network. The voice command is a person independent. The system comprises of transmitting and receiving module. Initially, the voice command is stored in the data base with the help of the function keys. Then the input voice commands are transmitted through wireless. The voice received is processed in the voice recognition system where the feature of the voice command is extracted and matched with the existing sample in the database. The module recognizes the voice and sends control messages to th...

IRJET, 2020

This paper describes intelligent Multilanguage voice controlled wheelchair which operates on user's voice commands (Multilanguage). The disabled people cannot move from one place to another on their own. They continuously need someone to help them in getting the wheelchair moving. This voice controlled system makes them more independent. Powered wheelchairs with the standard joystick interface are unable to be control by many people. A voice controlled wheelchair can provide easy access for physical disabled person who cannot control their movements especially hands. Few patients such as quadriplegic, cerebral palsy and multiple sclerosis are dependent on other people to move from one place to another and due to this they don't have the freedom of mobility. This voice controlled wheelchair helps them to drive the wheelchair without anyone's help. This system can be controlled by the simple voice commands given by the user. Depending upon the direction specified in the commands, the microcontroller will drive the motors. The speech recognition is done by voice recognition module, connected with microcontroller. The wheelchair would operate on real analogous voice signal of patient or user using the wheelchair.

IAEME Publication, 2020

As per WHO, about 10% of global population i.e. about 650 million people have disabilities. Studies indicate that of these, 10% require wheelchair. And on the other side there is a massive development in wheelchair from joystick movement to staircase climbing wheelchair to standing wheelchair. Two million wheelchairs are being used each year in US alone states the book of The Economics of Knowledge, Innovation and systemic Technology policy. Though the production is huge, still quadriplegic patients faces a lot of hurdles to use the wheelchair in their daily routine. So, the point of the undertaking is to outline a wheelchair communicator framework that could work as the wheelchair of the impeded individual with the assistance of intelligent system. This framework could be utilized by physically debilitate people who can't move their hands or legs however make head movements, particularly for quadriplegic patients. And this wheelchair system can be accessed by both the patient and the care taker.

This project opens a new hope to the physically challenged people. Freedom of mobility is the dream for every patient especially in the case of people suffering from cases such as quadriplegics and multiple sclerosis .Although many types of mobility equipments are available for these type of patient there is no independent means of mobility device for these patients since they cannot drive a joystick or manual wheelchair. In order to aid these types of patients we are developing voice operated wheelchair. The movement of the wheelchair is controlled by the voice of the user. This wheelchair can be driven to the preferred direction with minimum effort.The user requires only less training to use this wheelchair. Technically this wheelchair is integrated with a voice recognition module to identify the voice, a microcontroller which can be programmed other supporting hardware components and a motor driver L293D.The proposed microcontroller based voice operated wheelchair would bring more convenience for the disabled people. Two DC motors can be driven simultaneously, both in forward and reverse direction with the help of L293Dmotor driver. Here we can control the motors to move right, left, forward, reverse, free runs and stop or break.To provide tilt operation for this wheelchair we use selective movement of a single motor based on the diameter and speed of the wheel. Also can calculate how much movement is required to tilt the wheelchair at a desired angle.

People suffering from Parkinson's disease or from paralysis (paraplegia or quadriplegia) have the inability to move their limbs and other voluntary organs, they are dependent on someone's help to move around all the time and this makes them feel incapable and brings down their morale to survive. A solution to this becomes inevitably necessary in order to provide them with the necessary mobility and independence as they are inferior to nobody. The existing large scale manufactured versions of the wheelchair are either manually driven i.e. by the help another individual or hand driven. Paralyzed patients however do not have the ability to move their limbs but do possess the ability of speech which is the whole concept behind this voice driven wheelchair. The aim of this wheelchair is to provide a whole new platform of independent existence to these patients in the form a voice guided wheelchair. An implementation of the manufacture of this wheelchair on a large scale, the reduction of cost by simplicity in setting up and working. This will enable the wheelchair to be provided at an affordable price to the common man, this acted as another big driving force.