WEEK 4

JOURNAL 1


DESIGN AND COSTRUCTION OF STEP COUNTERS FOR DISABLE

PEOPLE: PRELIMINAR EXPERIENCE AT THE ITALIAN INSTITUTE

OF HEALTH by Giovanni Maccioni IEEE Member, Velio Macellari IEEE Member and

Daniele Giansanti IEEE Member, 2007.

The aim of this paper was to set-up a case study based on subjects with Parkinson’ s disease to investigate a new methodology for the step-counting based on the calfpump expansion activity monitoring

Abstract

Step counting is an important index of motion. One of the most diffused wearable systems, designed for this purpose, is the pedometer. The accuracy of commercial pedometers has been tested in literature. Several limits have been found in many commercial systems both in healthy subjects and in disable people. Furthermore, commercial pedometers lack in interoperability. A new wearable system for the step counting has been introduced in this paper. The wearable system is based on a wearable device with a force sensing resistor and a band; it is affixed at the calf gastrocnemius level for the monitoring of the muscular expansion correlated to the gait. The proposed gastrocnemius expansion measurement unit (GEMU) was tested on a three subjects with the Parkinson’ s disease at the Level 2 of the Tinetti test of unbalance who performed five repetition of 200 steps with three different instructions (fast, slow). The mean error was lower than 0.5 %. Results also showed that GEMU performed better than an accelerometer unit (considered in literature the best solution for this disability). The study showed that GEMU had a high performance in a subject with a pathology (the Parkinson’ s disease) causing a high degree of unbalance confounding the motion style and thus pedometers. The next phase will be the optimization of GEMU for long term medical applications at patients’ home with the special care to the material and with a comparison to a golden standard.

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WEEK 3

Pedometer is a device, usually portable and electronic or electromechanical, that counts each step a person takes by detecting the motion of the person's hips. Because the distance of each person's step varies, an informal calibration, performed by the user, is required if presentation of the distance covered in a unit of length (such as in kilometres or miles) is desired.

WEEK 3

Abstract


Pedometers are simple and inexpensive body-worn motion sensors that are readily being used by researchers and practitioners to assess and motivate physical activity behaviours. Pedometer-determined physical activity indices are needed to guide their efforts. Pedometer is a device that count number of steps a person takes. Pedometers motivate walkers to get fit by helping them calculate their daily steps, usually to reach a defined goal, such as the 10,000 steps recommended by Dr. Catrine tudor-Locke, assistant professor of health promotion at Arizona State University. Pedometer can calculate many useful parameters such as the number of steps a user takes, the distance and the speed of a person run/walk, as well as the number of calories the person had burned.

WEEK 2

The basic idea :-

The pedometer is attach to the leg of a user and the pedometer start counting as the user start jog. It will sent the data to the computer and the user can monitor it. In computer, the user can start analyze the calories burned, speed and total steps while jog. Other than that, my idea is want to show the result using smartphones such as Iphone, Android phone and also Ipad.

Week 1

Assalamualaikum w.b.t




Name            : MOHD FADZLI BIN MOHD FUZI
ID student     : 51216210279
Course          : BET IN MEDICAL ELECTRONICS
Supervisor    : ADIB ROSHIDI B AWALUDDIN
Project Title  : PEDOMETER


Activity for week 1:
Attend briefing for Fyp Degree student at Dewan Gemilang Unikl Bmi.

Pedometer

Title : Pedometer

Overview : Pedometer, now popular as an everyday exercise progress monitor and motivator. It used to measured number of steps, speed an calories burned.

Currently pedometer :