What are some potential solutions for mitigating the stochastic dismantlement of aircraft?
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Potential solutions for mitigating the stochastic dismantlement of aircraft include utilizing thermal energy management systems to offset stochastic load power variations . Additionally, employing Constraint Programming and simulation techniques can aid in rescheduling flight plans efficiently to minimize disruptions caused by external events, known as the Stochastic Aircraft Recovery Problem (SARP) . Furthermore, implementing damage mitigating apparatus such as parachute deploying systems and communication units can help prevent catastrophic failures in flight and facilitate safe operations in case of emergencies . By combining these approaches, aircraft operators can enhance the stability, efficiency, and safety of their operations, ultimately reducing the impact of stochastic dismantlement on aircraft.
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| Papers (5) | Insight |
|---|---|
| Damage mitigating apparatus includes deploying a parachute and deactivating lift generators upon flight failure. It also alerts nearby aircraft to avoid collisions, offering a solution for mitigating aircraft dismantlement. | |
Open access 08 Jul 2013 3 Citations | The paper proposes a methodology based on Constraint Programming and simulation to solve the Stochastic Aircraft Recovery Problem by rescheduling flights through delays and swaps to minimize total delay. |
10 Sep 2013 | The paper proposes solutions like rescheduling flight plans using delays, swaps, and cancellations, combined with optimization and simulation techniques to mitigate stochastic aircraft dismantlement. |
01 Mar 2017 5 Citations | Utilizing power electronics controlled dynamic thermal storage from cabin air and fuel can mitigate stochastic power variability in more electric aircraft, enhancing stability and fuel efficiency. |
26 Sep 2016 1 Citations | Not addressed in the paper. |
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