LATEST EMBEDDED PROJECTS


At TECHNOFIST we provide academic projects based on Biomedical with latest IEEE papers implementation. Below mentioned are the list and abstracts on Biomedical domain. For synopsis and IEEE papers please visit our head office and get registered.
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LATEST BIO MEDICAL/MEDICAL ELECTRONICS BASED PROJECTS

TECHNOFIST provides IEEE transaction papers on Biomedical based projects with latest IEEE concepts and training in Bangalore. We have 12 years experience in delivering Biomedical based projects. Below mentioned are few latest IEEE transactions on Biomedical related final year engineering projects.

Technofist is the best institute in Bangalore to carry out Biomedical based projects for final year academic project purpose. Latest BIOMEDICAL concepts for what is essential for final year engineering and Diploma students which includes Synopsis, Final report and PPT Presentations for each phase according to college format. Feel free to contact us for project ideas and abstracts.

Students of ECE, CSE , ISE , EEE and Telecommunication Engineering departments, willing to pursue final year project in stream of Embedded projects using BIOMEDICAL concepts can download the project titles with abstracts below.

TMB001
SECURE MEDICAL TAGS FOR REDUCING ERROR AND DRUG INTERACTION WITH EHR SYSTEM.

ABSTRACT - With the recent increase in usage of mobile devices especially in developing countries, they can be used for an efficient healthcare management. In this project, we have proposed a novel architecture for improving health care system with the Help of Android based mobile devices with NFC [II] and Bluetooth interfaces, smartcard technology on tamper resistant secure element (SE) for storing credentials and secure data, and a Health Secure service on a hybrid cloud for security and health record management. Contact:
 +91-9008001602
 080-40969981

TMB002
LEG MOTION TRACKING.

ABSTRACT -The purpose of this project was to design and build a low cost device to emulater body motion in a virtual environment. Tracking human motion attracts significant attention from several areas such as animation production, ergonomics, sport medicine, and biomedical analysis. First, it was intended to detect human motion by using accelerometers. However, after conducting many research and experiments, it was concluded that accelerometers have limitations in detecting motion. In other words, one accelerometer alone cannot detect horizontal movements (on any horizontal ring on a sphere) when there is no dynamic acceleration. One of the proposed and tested solutions was to use compass sensors to compensate for the accelerometers limitations. Therefore, three accelerometers were used to detect the motion of arms, head, neck, and back and the horizontal movement of the back at various angles. The experiment was successfully done and satisfactory results were obtained. The other proposed method which was tested for one body segment and compared to the first solution was to use gyroscopes along with accelerometers. Even though using a gyroscope would improve the results significantly, due to the high cost of gyroscopes and time limitations this method was not implemented. However, using gyroscopes are highly recommended for future design. The 3- D virtual LSM used in this project to validate how well the system tracks. Contact:
 +91-9008001602
 080-40969981

TMB003
SMART BIO-SERVICES: AUTOMATIC ACCIDENT DETECTION AND AMBULANCE RESCUE SYSTEM.

ABSTRACT -- Road accidents and traffic congestion are the major problems in urban areas. Currently there is no technology for accident detection. Also due to the delay in reaching of the ambulance to the accident location and the traffic congestion in between accident location and hospital increases the chances of the death of victim. There is a need of introducing a system to reduce the loss of life due to accidents and the time taken by the ambulance to reach the hospital. To overcome the drawback of existing system we will implement the new system in which there is an automatic detection of accident through sensors provided in the vehicle. A main server unit houses the database of all hospitals in the city. A GPS and GSM module in the concerned vehicle will send the location of the accident to the main server which will rush an ambulance from a nearest hospital to the accident spot. Along with this there would be control of traffic light signals in the path of the ambulance using RF communication. This will minimize the time of ambulance to reach the hospital. A patient monitoring system in the ambulance will send the vital parameters of the patient to the concerned hospital. This system is fully automated, thus it finds the accident spot and helping to reach the hospital in time. Contact:
 +91-9008001602
 080-40969981

TMB004
STREMS: A SMART REAL - TIME SOLUTION TOWARD ENHANCING EMS PREHOSPITAL QUALITY.

ABSTRACT -- The paper presents the design and implementation of an IOT-based health monitoring system for emergency medical services which can demonstrate collection, integration, and interoperation of IoT data flexibly which can provide support to emergency medical services like Intensive Care Units(ICU), using a Blynk application which normal people can easily install in their phones and get access. The proposed model enables users to improve health related risks and reduce healthcare costs by collecting, recording, analyzing and sharing large data streams in real time and efficiently. The idea of this project came so to reduce the headache of patient to visit to doctor every time he need to check his blood pressure, heart beat rate, temperature etc. With the help of this proposal the time of both patients and doctors are saved and doctors can also help in emergency scenario as much as possible. The proposed outcome of the project is to give proper and efficient medical services to patients by connecting and collecting data information through health status monitors which would include patient’s heart rate, blood pressure and ECG and sends an emergency alert to patient’s doctor with his current status and full medical information. Contact:
 +91-9008001602
 080-40969981

TMB005
FABRICATION OF EXOSKELETON ARM.

ABSTRACT -- Exoskeleton Arm, a battery powered upper-body robotic arm which instantly increases human strength. Augmenting arm strength by forty pounds, Exoskeleton Arm helps rehabilitate people with back injuries, allowing them to rebuild muscle and relearn motor control. The exoskeleton technology also aids those lifting objects as part of their daily work, particularly in construction or delivery-driven positions. Labor, manual transporting is the main cause of injuries in the Bangladesh work force, and four out of five of these injuries will affect the lower back. Combined, upper body injuries cost the Bangladesh approximately $5 billion annually. Exoskeleton Arm is obviously an ingenious design, but the team’s use of modern, rapid – and relatively inexpensive – manufacturing techniques makes the project even more compelling. We wanted Exoskeleton Arm to be affordable, as exoskeletons are rarely covered by health insurance. This informed our design decisions and the materials we used. Most structural components are machined from inexpensive aluminum. Contact:
 +91-9008001602
 080-40969981

TMB006
BATTERY MANAGEMENT SYSTEM.

ABSTRACT -- A battery management system is essentially the “brain” of a battery pack; it measures and reports crucial information for the operation of the battery and also protects the battery from damage in a wide range of operating conditions. Battery management system (BMS) emerges a decisive system component in battery-powered applications, such as (hybrid) electric vehicles and portable devices. However, due to the inaccurate parameter estimation of aged battery cells and multi-cell batteries, current BMSs cannot control batteries optimally, and therefore affect the usability of products. In this paper, we propose a BMS such that continuously it monitors current, voltage and temperature and these parameters values are sent to the android app through PC. Contact:
 +91-9008001602
 080-40969981

TMB007
DEVELOPMENT OF NOONEE CHAIRLESS CHAIR.

ABSTRACT -- It’s an innovative and forward-thinking concept, the ability to sit anywhere and everywhere with the aid of a chair less chair. It’s like a chair that isn’t there, but magically appears whenever you need it. It’s called the chair less chair and you wear it on your legs like exoskeleton, when it’s not activated, you can walk normally or even run. Like a chair that is now there. Standing for hours or end causes a lot of distress to lower limbs, but most works get very few breaks and chairs are rarely provided, because they take up too much space. So the best idea was to strap an unobtrusive chair directly to yourself. So it was decided to have this innovative concept in reality, to help workers who work for hours on production line in standing position and tired. Contact:
 +91-9008001602
 080-40969981

TMB008
DEVELOPMENT OF WHEELCHAIR CUM STRETCHER.

ABSTRACT -- The number of patients in India is increasing day by day. So in hospitals patients need to be shifted from wheelchair to stretcher, stretcher to beds, bed to wheelchair, or vice versa; which creates unsafe conditions for patients. Also transferring the patients from wheelchair to stretcher, stretcher to beds, bed to wheelchair is always an issue for the attendant or nurse. Sometime during handling, patient and hospital staff suffer from many problem like stresses are produced in the body, some time chances to sleep down the patient. It is required to eliminate all types of possibilities. Understanding the various issues regarding the mobility equipment, the better design will be an asset for the medical field and a helping hand for disabled individuals. There is a need for a wheelchair cum stretcher to facilitate the disabled patient’s mobility and to provide novel medical equipment for use in the Indian hospitals. The present research work proposes a development of wheel chair cum stretcher which will follow the standard specification of both wheel chair and stretcher with considering the issues like safety, hygienic, cleaning and functionality. Contact:
 +91-9008001602
 080-40969981

TMB009 BIO METRIC RECOGNITION SYSTEM BASED DIGITAL VOTING MACHINE ABSTRACT
TMB010 ELECTRONIC LIBRARY MANAGEMENT SYSTEM USING FINGER PRINT SENSOR ABSTRACT
TMB011 PATIENT MEDICAL INFORMATION SYSTEM USING FINGER PRINT ABSTRACT
TMB012 FINGER PRINT PREDICTION ENABLED PASSPORT AUTHENTICATION SYSTEM ABSTRACT
TMB013 INVOLUNTARY,BIOMETRIC DOOR ACCESS CONTROL AND ATTENDANCE MAINTENANCE SYSTEM ABSTRACT
TMB014 IVRS BASED AUTOMATIC TELLER MACHINE TRANSACTION SYSTEM WITH THE HELP OF RFID TECHNOLOGY FOR BLIND PEOPLE WITH BIOMETRIC AUTHENTICATION ABSTRACT
TMB015 HIGH PROTECTION ATM SYSTEM WITH FINGER PRINT IDENTIFICATION TECHNOLOGY WITH IMAGE RECORD AND GSM ABSTRACT
TMB016 MEMS BASED PC COMMANDS USING HAND SIGNALS ABSTRACT
TMB017 REALTIME IMPLEMENTATION OF BIOPAD FINGER PRINT ATTENDANCE MONITOR. ABSTRACT
TMB018 HIGH PROTECTION SECURITY SYSTEM WITH BIOMETRIC AND VIDEO TRANSMISSION ABSTRACT
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BIO MEDICAL/MEDICAL ELECTRONICS

Biomedical engineering (BME) is the application of engineering principles and design concepts to medicine and biology for healthcare purposes (e.g. diagnostic or therapeutic).
This field seeks to close the gap between engineering and medicine, combining the design and problem solving skills of engineering with medical and biological sciences to advance health care treatment, including diagnosis, monitoring, and therapy.

Biomedical engineering has only recently emerged as its own study, compared to many other engineering fields. Such an evolution is common as a new field transitions from being an interdisciplinary specialization among already-established fields, to being considered a field in itself. Much of the work in biomedical engineering consists of research and development, spanning a broad array of subfields (see below).

Prominent biomedical engineering applications include the development of biocompatible prostheses, various diagnostic and therapeutic medical devices ranging from clinical equipment to micro-implants, common imaging equipment such as MRIs and EEGs, regenerative tissue growth, pharmaceutical drugs and therapeutic biologicals.

Medical Science examines treats and cures almost all the disease meeting the need of accuracy by the people by using sophisticated and precise equipments. A medical electronics engineer can be called as the doctor of the equipments without which a doctor, a surgeon or a multi specialty hospital is helpless. He/She is the person, who knows the mechanism, operation and maintenance of these equipments.

Medical Electronics engineers are the one who design devices and measures that solve medical and health-related problems by combining their knowledge of biology and medicine with engineering principles and practices. Many do research, along with life scientists, chemists, and medical scientists, to develop and evaluate systems and products such as artificial organs, prostheses (artificial devices that replace missing body parts), instrumentation, medical information systems, health management and care delivery systems.

This category consists of Bio medical electronics project list with abstract/ABSTRACT.Here we provide latest collection of topics developed using latest Bio medical electronics concepts.Latest Bio medical topics,Latest Bio medical concept for diplomo,Engineering students,Bio medical project centers in Bangalore with high quality training and development.Here is a list of project ideas for Bio medical electronics concepts.

Students belonging to third year mini projects or final year projects can use these projects as mini-projects as well as mega-projects. If you have questions regarding these projects feel free to contct us. You may also ask for abstract of a project idea that you have or want to work on.The own projects idea for diploma and Engineering students can also be done here

Medical Electronics engineers also design devices used in various medical procedures, imaging systems such as magnetic resonance imaging (MRI), and devices for automating insulin injections or controlling body functions. Some specialties within medical electronics engineering include biomaterials, biomechanics, medical imaging, rehabilitation engineering, and orthopedic engineering.

Medical Electronics Engineering Technology appeals to students desiring to be technical, and, at the same time, devote their careers to saving lives by helping doctors, nurses and hospital patients. Graduates become medical electronics engineers and maintain, repair, and calibrate the electronic medical instruments used in healthcare. To advance in these careers, it is also important to develop skills in communicating problems, ideas and solutions to otheremployees.

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