多功能监视飞机需要有极为完善的计算和通信性能才能有效地工作。在复杂的电子对抗环境下,必须完成大最实时数据处理。用分立单元联成网络的航空电子设备在提供这种能力方面受到了越来越大的压力。一个有效的监视系统必须能在飞机的各个方向完成实时的目标检测、识别和跟踪以及保密通信、威胁告警和故障监视。有可能解决这一问题的方法是采用和飞机外壳联成一体的共形阵列。将数字波束形成与分布式并行处理结合起来,共形阵列就具有冗余连网,人工智能补偿、容错和故障弱化等性能,这正是下一代 Multi-function surveillance aircraft require extremely sophisticated computing and communications capabilities to work effectively. In the complex environment of electronic warfare, large real-time data processing must be completed. Avionics devices that use discrete units to network together are under increasing pressure to provide this capability. An effective surveillance system must be able to perform real-time target detection, identification and tracking in all directions of the aircraft as well as confidential communications, threat alerts and fault monitoring. It is possible to solve this problem by using a conformal array integrated with the aircraft’s shell. Combining digital beamforming and distributed parallel processing, conformal arrays have properties such as redundant networking, artificial intelligence compensation, fault tolerance and fault weakening, which are the next generation