Concept of operations

About: Concept of operations is a research topic. Over the lifetime, 964 publications have been published within this topic receiving 6845 citations. The topic is also known as: CONOPS.

Concepts of Operations (CONOPS) for Biodosimetry Tools Employed in Operational Environments.

Abstract: It is essential to identify improved capabilities to accurately identify, confirm, and/or quantify radiological exposure and injury in order to inform critical triage, diagnosis, and treatment decisions. Herein the authors report characteristic requirements and potential Concepts of Operations (CONOPS) for biodosimetry tools employed in operational environments. While similar significant efforts have been completed in this area for the U.S. civilian sector, limited perspectives are published in the peer-reviewed literature regarding the use of radiological diagnostic technologies in deployed military medical treatment settings. Two radiological exposure scenarios were developed to clarify the diagnostic performance criteria and identify capability gaps. The emerging technology areas associated with radiation exposure diagnostics were reviewed and assessed to gauge their suitability in supporting triage, treatment, and return to duty decisions within the military medical support system.

Software radios for airborne platforms

Abstract: Defense contributions to the Programmable Modular Communications System (PMCS) Integrated Product Team (IPT) included designs for an RF module based on software radio configurations useful in airborne systems. Several configurations were examined, analyzers were consolidated, and concepts of operation (CONOPS) were evaluated. Geographic separation of platforms and on-board separation of radio modules have consequences for the remote control of reconfigurable radios. This paper identifies organizational roles in software radio development, characterizes the need for software radios in airborne applications, and highlights those configurations found to be attractive. The methodology, CONOPS, and conclusions are summarized.

Embedded Training Intelligent Tutoring Systems (ITS) for the Future Combat Systems (FCS) Command and Control (C2) Vehicle

Abstract: : The FCS is a radical departure from the previous Army concept of operations. It is described primarily as a system of systems and is a new way to fight. The new concept of operations is network centric, with information from a large number of different types of sensors passing through the network to the C2 vehicle. This diverse information must be understood, situational awareness achieved, and, tactical decisions based on it must be made. Thus, the new soldier manning the FCS C2 platform is given much more information, more diverse in nature; and therefore has a much more cognitively challenging job. Embedded training (ET) seeks to provide effective training anytime, anywhere. "Embedded training must allow individual and collective training on a digital terrain representation of the mission area and permit mission planning and rehearsal in both stand-alone and networked modes while enroute."FCS Mission Needs Statement (MNS) 2001 Instructors are required to perform several instructional tasks, including instructing the student on relevant information, presenting appropriate examples, debriefing the student, and assigning remedial instruction. However, an instructor will not usually be available in the field, anytime, anywhere.

Unmanned Ground Vehicles for Integrated Force Protection

Abstract: The combination of Command and Control (C2) systems with Unmanned Ground Vehicles (UGVs) provides Integrated Force Protection from the Robotic Operation Command Center. Autonomous UGVs are directed as Force Projection units. UGV payloads and fixed sensors provide situational awareness while unattended munitions provide a less-than-lethal response capability. Remote resources serve as automated interfaces to legacy physical devices such as manned response vehicles, barrier gates, fence openings, garage doors, and remote power on/off capability for unmanned systems. The Robotic Operations Command Center executes the Multiple Resource Host Architecture (MRHA) to simultaneously control heterogeneous unmanned systems. The MRHA graphically displays video, map, and status for each resource using wireless digital communications for integrated data, video, and audio. Events are prioritized and the user is prompted with audio alerts and text instructions for alarms and warnings. A control hierarchy of missions and duty rosters support autonomous operations. This paper provides an overview of the key technology enablers for Integrated Force Protection with details on a force-on-force scenario to test and demonstrate concept of operations using Unmanned Ground Vehicles. Special attention is given to development and applications for the Remote Detection Challenge and Response (REDCAR) initiative for Integrated Base Defense.