An evaluation of selected quantitative methods useful in plant layout

Buchan, John Russell

08 1900

No description available.

Factories Design and construction

Plant layout

Materials handling

Quantitative utilization of activity data for initial layouts

Deisenroth, Michael Pierce

05 1900

No description available.

Plant layout Computer programs

Materials handling

Flow path network design and layout configuration for material delivery systems

Bakkalbasi, Omer

12 1900

No description available.

Materials handling

Production scheduling

Transportation Mathematical models

The integration of line loading and material handling

Fang, Tao

08 1900

No description available.

Materials handling Automation

Application of quantitative techniques in facilities planning

Totten, Dwight Lee

08 1900

No description available.

Linear programming

Materials handling

Industrial management

A study of operating costs for 'slant angle' palletized warehouse storage

Ellars, Otto Raymond

12 1900

No description available.

Warehouses

Materials handling

Pallets (Shipping, storage, etc.)

Effectiveness of an on-body lifting aid at reducing low-back physical demands during an automotive assembly task : assessment of EMG response and user acceptability

Graham, Ryan Bevan

20 August 2008

The purposes of the present work were: 1) to develop a computerized model that could predict the personal lift-assist device (PLAD) spring excursion and control spring stiffness for various individuals based on their anthropometry and working posture and 2) to test the PLAD’s (Version 6) effectiveness and user acceptability during static forward bending in an automotive assembly plant. Study 1 required 30 subjects to carry out a protocol that simulated unloaded stoop, squat, and freestyle lifting. Trunk inclination and knee angles were determined via 3 FastrakTM sensors, whereas a displacement transducer attached in-line with the PLAD determined excursion when the trunk or knees flexed. A model was created to determine spring excursion, and it was successfully validated with 10 additional subjects. A computerized model applying the excursion model and mathematical equations was also developed to calculate the required spring stiffness for offsetting a proportion of the L4/L5 bending moment for each individual in various postures. Study 2 investigated the effectiveness and user acceptability of the PLAD at an automotive manufacturing facility, using operators who performed an assembly process requiring forward bending and static holds. Surface EMG data were collected at six sites on the low back and abdomen, and a tri-axial accelerometer was mounted on each subject’s sternum to measure trunk inclination. A 20% reduction in the L4/L5 bending moment was provided to each wearer using the aforementioned computerized model. The PLAD was able to significantly reduce low back muscular activity, predicted-compression, and ratings of perceived exertion, without significantly changing abdominal activity or trunk inclination. Workers had positive opinions about the device, and 80% said they would wear the device everyday on-line. Additionally, the computerized model developed in Study 1 was effective, as worker low back muscular activity was reduced by approximately 20% when wearing the PLAD. With slight alterations, the PLAD appears to be beneficial in reducing low back forces and discomfort in many tasks that place excessive biomechanical loading on the low back. / Thesis (Master, Kinesiology & Health Studies) -- Queen's University, 2008-08-18 15:55:16.757

Ergonomic aid

Electromyography

Manual materials handling

Development and application of a pc-based computerized textile finished goods production and inventory control system utilizing barcoding

Mattel, William Maxwell

January 1991

No description available.

Materials handling Automation

Inventory control Automation

Design, fabrication and testing of a special purpose end effector for the task of bin-picking

Gore, Kiron Pralhad

05 1900

No description available.

Robots, Industrial

Materials handling

Manipulators (Mechanism)

Input-output modeling of material flows in industry

Bailey, Robert Reid

08 1900

No description available.

Ecology

Materials handling