Jenny Krasny
Senior Customer Safety & Fatigue Consultant, Caterpillar Inc.- Caterpillar Safety Services
Sleep deprivation, abnormal sleeping patterns, long commute times, and highly repetitive, sustained and monotonous tasks are common predictors of fatigue across the mining industry. Fatigue is a reality that our industry faces, and while all would agree that it is a critical risk that must be managed, understanding the severity of that risk and developing the associated controls has been a challenge… until recently. Using wearable devices, the condition of our operators, employees and managers can be assessed easily and accurately, enabling solutions for fatigue mitigation and management to come to the fore. The dilemma, however, is that solutions developed for one operation do not always apply to other operations due to the unique differences in rosters, sleeping conditions, commute times and a multitude of other variables.
Having worked across four continents, supporting various mining operations identify, mitigate and manage their fatigue risk, Jenny Krasny will present to you not only the state of fatigue in our industry, but also some of the unique and innovative solutions customers are adopting to manage fatigue risk.
You may also like
- Post explosion atmosphere monitoring:– An industry study into available, low powered, sensors were conducted. The study was to identify commercially available equipment to sample the mine atmosphere post an underground incident.
- Ultra-resilient communication system:– An investigation was undertaken into the feasibility of components for a robust and resilient mine communication network. The network must survive an underground incident and be able to transmit information in and out of an underground mine environment.
- Blast protection (or blast resilience):– The blast protection was evaluated through subjecting different shapes of enclosures to actual blasts, in an explosion propagation tube.
- Navigational aids:– A series of test were undertaken to determine the suitability of using visible light, infra-red as well as radar to aid in self rescue. All test were undertaken in a “dusty”, or low-visibility, environment.