So real logic of all fall arrest systems is to stop the faller in the shortest distance and time, that’s why, the project calculations have to be done to provide this vital aim. All lifelines have to be on-site monitoring, enough information has to be collected from workers, working conditons have to be determined, and the projects have to be prepared according to the needs and jobs. Lifelines need to be structured to prevent any additional danger or not to prevent the work done for the workers in the field. Lifelines, anchorage and solutions of safe work at height need to be chosen according to the structure types, assembly place, statuses of structures under workplaces, their height or machine layout plans.
Also while providing solutions, the field conditions have to be calculated. The projects have to be prepared in regard to personnel(s) who will use the systems, PPE that will be used or the form of the space to fall down. Moreover, the projects have to be prepared and assembled by concerning the values like shock force (impact force) or oscillation distance. There have to be an emergency plan and practices for all lifelines prepared to reach fallen personnel within 15 minutes after fall. As it is seen, it is not possible to bring a solution for safe work at height with one discipline. The projects need to be prepared with multi-disciplines and experiences like engineering calculations, human relations, safe work at height information and coaching, technical and practical fund of knowledge about industrial structures, pro essional rope access and occupational safety specialization.