Özet
High intensity electromagnetic radiation has been demonstrated to be a source of computer upsets in commercially available digital flight control systems. Thus, there is a strong need to investigate its effect on stability and performance. In [3]-[5], electromagnetic disturbances were modeled with a continuous-time Markovian exosystem generating disturbance events. To analyze the effect of these disturbances, the radiated system was modeled as a discrete-time jump linear system with an appropriate set of transition probability rates. The linear systems in this model were all deterministic, hence this method rendered a worst-case stability analysis. In this paper, the technique is generalized by allowing stochastic perturbations to be randomly introduced by the exosystem model. A preliminary stability theory is developed, and an example is presented to compare stability boundaries for radiation parameters using this model against the worst-case scenario.
| Orijinal dil | İngilizce |
|---|---|
| Sayfalar | 1797-1802 |
| Sayfa sayısı | 6 |
| Yayın durumu | Yayınlandı - 1999 |
| Harici olarak yayınlandı | Evet |
| Etkinlik | Proceedings of the 1999 IEEE International Conference on Control Applications (CCA) and IEEE International Symposium on Computer Aided Control System Design (CACSD) - Kohala Coast, HI, USA Süre: 22 Ağu 1999 → 27 Ağu 1999 |
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| ???event.eventtypes.event.conference??? | Proceedings of the 1999 IEEE International Conference on Control Applications (CCA) and IEEE International Symposium on Computer Aided Control System Design (CACSD) |
|---|---|
| Şehir | Kohala Coast, HI, USA |
| Periyot | 22/08/99 → 27/08/99 |