The goal of this project is to decrease the risk of work-related accidents associated with construction and mining vehicles. The reasons for these accidents are partly due to the dimensions of the vehicle, which prohibit the driver from seeing certain areas of the surrounding environment, creating blind spots. These blind spots make it impossible to see people or things in the environment. The intern will be asked to evaluate different cabin designs on a computer and let the organization known which one offered the least amount of blind spots.
Many companies believe that the more efficient way of thinking “lean” will improve quality by eliminating waste, reducing lead time and reducing their overall costs. However, the benefits and downfalls of a lean process of manufacturing have been debated extensively. Many researchers have noted a positive improvement in productivity, quality, and efficiency which contribute positively to managers, supervisors and other white collared workers. However, some other researchers have noted negative impacts on the health of blue collared assembly workers.
The advent of new weapon-mounted technologies poses new challenges for assault rifle design. Changes in rifle weight and center of mass (COM) can have significant impacts on soldiers’ rifle handling and ability to engage a target. Defense Research and Development Canada (DRDC), as part of a larger NATO Task Group, have hired Human Systems Inc., to investigate integration issues associated with new weapon systems. Testing will be conducted on a highly secured live-fire range using experienced Canadian soldiers as subjects. Human Systems Inc.
The intern will conduct a detailed cross-sectional study of ergonomic issues impacting operators of typical tree-harvesting machines used in Atlantic Canada. Operators from forest products companies will be recruited for this study. Data will be collected from structured interviews, field testing and simulated forest machine tasks.