DISEASE DETECTION USING BIOROBOTICS PPT DOWNLOAD

The new system has been designed with reference to the biomechanical characteristics of the human finger. This new bio-robotic system is exploited in order to obtain an intelligent and reliable detector supported by a very small and portable device, with a simple joystick with few buttons, a liquid-display LCD , and a simple interface for remote communication of diagnosis. This is the input patient interface and its function is to capture indirectly three basic information for diagnosis: The block 10 performs fuzzy rules on acquired data and return diagnosis results that will be output on display 5. The block 1 is the press button. All these three information are collected from block 6 which is the heart of the system and directs the information flow among peripherals. As a matter of fact, these measurements turn out to be an excellent method of finding reactive parameters alteration due not only to a pathology, but also, for example, to the use of drugs, alcohol, drugs used in the treatment of mental conditions, or other substances that could affect a person's reactive and coordination capabilities.

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Are you interested in this topic. Reaction time, speed, force, and tremor are parameters that are used to obtain a quantitative instrumental determination of a patient's dlsease health. The initial experimental system DD1 and the current system DD2 are not easily portable and, even if they are very reliable, cannot estimate the patient health beyond the typical parameters of Parkinson's disease nor are they able to remotely transmit such diagnoses. Disease detector DDX is a new bio robotic device that is a fuzzy based control system for the detection of neuro-motional and psychophysical health conditions.

The block 6 manages all information and stores them in block 11 if it is necessary. The analog force signal is first amplified in block 2filtered and then converted in a 8-bit digital form by block 4.

Disease detection using biorobotics

DDX is the new experimental bio-robotic system for the acquisition and restitution of human finger movement data. The audio unit, composed by a simple buzzer, is used to synchronize the patient actions in relation to the kind of test.

Then mail to us immediately bioorobotics get the full report. As a matter of fact, these measurements turn out to be an excellent method of finding reactive parameters alteration due not only to a pathology, but also, for example, to the use of drugs, alcohol, drugs used in the treatment of mental conditions, or other substances that could affect a person's reactive and coordination capabilities.

Moreover this new device also includes a system to detect vocal reaction. The system is characterized by a small dimension design; user friendly hardware and software means that even non- experts will be able to use this device. The resulting output can be visualized through a display or transmitted by a communication interface.

Disease Detection Using Bio-robotics | Seminar Report, PPT, PDF for Biomedical Engineering

The block 1 is the press button. The set of parameters obtained is useful not only to diagnose neuro-motor pathologies e. The block 10 performs fuzzy rules on acquired data and return diagnosis results that will be output on display 5.

Blocks A and B arerespectively ,a movement sensor that measures hand tremors and a vocal sensor; the two blocks interact biorobotice block 6 and apply parameters calculated using fuzzy logic. It may be adopted for earth and space applications, because of its portability, in order to measure diseasse the reactions in front of external effects.

This is a portable system, involving multiple parameters such as reaction time, speed, strength and tremor which are processed by means of fuzzy logic.

All these three information are collected from block 6 which is the heart of the system and directs the information flow among peripherals. Effectively, it captures the start time of button pressure, the end time and the force impressed by using a strain gauge.

This new bio-robotic system is exploited in order to obtain an intelligent and reliable detector supported by a very small and portable device, with a simple joystick with few buttons, a liquid-display LCDand a simple interface for remote communication of diagnosis. These parameters have been used in the study of the progression of Parkinson's disease, a particularly degenerative neural process, but these parameters can also be useful in detecting the wellness of a healthy person.

The new system has been designed with reference to the biomechanical characteristics of the human finger. It was originally used for the analysis of neural disturbances with quantitative evaluation of both the response times and the dynamic action of the subject. The DDX control system consists of a small board with an internal fuzzy microcontroller that acquires, through the action on a button on the joystick, some important parameters: Figure is a block diagram that describes, from the functional point of view, the structure of the proposed system.

Disease detection using biorobotics - Wikiversity

This is the input patient interface and its function is to capture indirectly three basic information for diagnosis: Parkinson Diseasebut also to assess general everyday health or to monitor sports performance; moreover, continuous use of the device by an individual for health-monitoring purposes, not only allows for detection of the onset of a particular pathology but also provides greater awareness in terms of how life style or ;pt habits tend to have repercussions on psycho-physical well-being.

Blocks 5,8 represents the medical operator interface to give commands and to read outputs.

By processing these parameters through the use of fuzzy logic it is possible to monitor an individual's state of health.