Creating Cross-Domain Kill Webs in Real Time

October 12, 2020

Two DARPA-developed technologies – a novel decision aid for mission commanders and a rapid software integration tool – played a critical role in the recent Air Force demonstration of the Advanced Battle Management System (ABMS).

The Adapting Cross-domain Kill-webs (ACK) program and the System-of-systems Technology Integration Tool Chain for Heterogeneous Electronic Systems (STITCHES) were among a number of technologies recently demonstrated that involved attacks using live aircraft, ships, air defense batteries, and other assets.

ACK is developing a decision aid for mission commanders to assist them with rapidly identifying and selecting options for tasking – and re-tasking – assets within and across organizational boundaries. Specifically, ACK assists users with selecting sensors, effectors, and support elements across military domains (space, air, land, surface, subsurface, and cyber) that span the different military services to deliver desired effects on targets. Instead of limited, monolithic, pre-defined kill chains, these more disaggregated forces can be used to formulate adaptive “kill webs” based on all of the options available.

ACK was used in an air defense scenario during the ABMS demonstration, where an air commander faced incoming aerial threats and needed to quickly decide the best way to counter them.

“The ACK decision aid software analyzed thousands of options to form cross-domain kill-webs and recommended the assets for the kill chain and the best command-and-control ‘play’ to the mission commander,” said Air Force Col. Dan “Animal” Javorsek, ACK program manager. “Once selected, the ACK software sent the ‘play’ to the C2 Incident Management Emergency Response Application (C2IMERA) and the ground-based Composite Tracker and Classifier (CTC) integrated fire control system that used automated messaging and machine-to-machine cuing over Link-16 to scramble fighters and intercept the cruise missiles.”

The machine-to-machine communications to enable this distributed fire control was performed by the STITCHES integration toolchain. STITCHES is a software-only and fully government owned (non-proprietary) toolchain specifically designed to rapidly integrate heterogeneous systems across any domain by auto-generating extremely low latency and high throughput middleware between systems without needing to upgrade hardware or breaking into existing system software. The toolchain does not force a common interface standard; rather it rapidly creates the needed connections based on existing fielded capabilities obviating the need to upgrade in order to interoperate.

Source 

---