根据Gartner,股份有限公司软件工程炒作周期,2023年,变革技术,包括人工智能增强软件工程(AIASE)、人工智能编码助理和平台工程,将在2-5年内进入主流。
陆军工程兵团承担与水利基础设施相关的土木工程项目,如大坝、堤坝等。2022年的一项法律允许美国陆军工程兵团为这些项目使用非采购合同、合作协议或赠款的合同类型。这些被称为“其他交易协议”
The U.S. Department of Defense (DoD) requires more efficient and timely methods to acquire, integrate, and interoperate systems, and perhaps more crucially systems-of-systems (SoSs), to deter near-peer adversaries in a rapidly evolving threat environment and prevail in combat should deterrence fail. Current practice for integration across systems generally relies on the development of interface control documents that describe in detail how the different systems and subsystems connect and interact. In 2019, RAND researchers were asked to participate in a multiyear effort to help DoD understand the challenges of creating a universal command and control language (UCCL) to facilitate the evolution of systems and interoperability of SoSs. In this report, the authors establish a conceptual framework for analyzing SoS performance of different sensor-to-shooter connections, combinations, and associated command and control constructs. The analysis shows that implementation details of a standard interface may contribute to interface overhead that changes technical performance by orders of magnitude. Overall, while the authors found that there are cases in which mission performance is mainly driven by operational parameters and not the interface design, there are also cases in which implementing a standard interface has the potential to adversely influence mission outcomes if designers do not apply in-depth engineering analysis and careful design practice. This research should not be viewed as a study of a specific standard interface, but as an early system engineering study of how such an interface could and should be designed.
