6 research outputs found
Analisis Ergonomi Industri Garmen Dengan Posture Evaluation Index Pada Virtual Environment
Ergonomic Analysis of Garment Industry using Posture Evaluation Index (PEI) in Virtual Environment. This research tried to study, in a virtual environment, the ergonomics of four divisions in garment industry: cutting division, sewing division, button division, and finishing division. Variables that influence the working conditions in each division are different; depend on the real situations that happened. The purpose is to assess the real working conditions based on ergonomics study using Posture Evaluation Index (PEI). PEI integrates the scores of low back analysis (LBA), ovako working posture (OWAS), and rapid upper limb assessment (RULA). Analysis phase was done using digital human model in virtual environment that available on Jack 6.0. The results show that the working conditions in garment industry had enough amount of risk that can injured the musculoskeletal system of the workers. This research enriches the body of ergonomics knowledge in Indonesia because it is the first research in Indonesia that applied virtual environment approach to ergonomics analysis in industry.  
Work System Improvement of Evacuation Process Conducted by Emergency Medical Technicians Using Virtual Environment Modeling
The work of emergency medical technicians (EMT) during patient evacuation involves lifting task in an emergency situation, which results in the increasing risk of musculoskeletal disorders such as low back pain. The purpose of this research was to investigate the workplace and ergonomic aspect that influence work posture of the EMT using simulation approach in a virtual environment. Biomechanic model (mannequin) of the EMT had been simulated and analyzed by using LBA and OWAS method. The mannequin was given an improvement based on ergonomic principle of manual lifting task and then was reanalyzed. Improvement that can be used for the work system of the evacuation process conducted by EMT considering its nature situation is the work posture of personnel during the process of lifting the patient into the stretcher. The technique that can be used is the proper lifting techniques. The results of this research can be used as a recommendation to the work system of the EMT
Working Posture Evaluation of Clinical Student in Faculty of Dentistry University of Indonesia for the Scaling Task in Sitting Position in a Virtual Environment
Musculoskeletal disorders (MSDs) are global issues in the dental profession. This research evaluated the MSDs risk caused by the sitting working posture of clinical students performing the task of scaling. The evaluation using the virtual environment approach shows risk of MSDs in the students’ upper extremities such as neck, shoulder, and trunk. Further simulation based on the ideal sitting working posture shows that ergonomic scaling could be achieved when the patient sits at a 15° angle. When scaling the 1st and 4th quadrant of the teeth, the 9 o’clock position is used. Hence, the 11 o’clock position is used when scaling the 2nd and 3rd quadrant
Analisis Ergonomi Sepeda UI Dengan Metode Posture Evaluation Index (Pei) Dalam Virtual Environment
Ergonomic Analysis of UI Bicycle Using Posture Evaluation Index (PEI) Method in Virtual Environment. Thisresearch was conducted to study ergonomic aspect from University of Indonesia bicycle in virtual environment.Software Jack 6.0 was used to analyze it. PEI was used as approach that integrated the results of three methods: LowerBack Analysis, Ovako Working Posture Analysis, and Rapid Upper Limb Assessment. The research objective is toevaluate existing design of University of Indonesia bicycle and to determine the most ergonomic redesign whichconcern with handlebar height and saddle height modification. The result showed that the most ergonomic design ofUniversity of Indonesia bicycle is the one with the highest handlebar height (22 cm) and the lowest saddle height (11cm)