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Line 1: {{more citations needed\|date=February 2024}} ~~The '''Tactical Control System''' (TCS) is a group of protocols that govern the command and control system for [[Unmanned Aerial Vehicles]] (UAV).~~ <ref>{{Cite web \|title=UAV Tactical Control System (TCS) \|url=https://www.globalsecurity.org/intell/systems/uav_tcs.htm \|access-date=2024-02-26 \|website=www.globalsecurity.org}}</ref> The '''Tactical Control System''' ('''TCS''') is a group of protocols that govern the command and control system for [[unmanned aerial vehicle]]s (UAVs). ==History== Developed by [[EG&G Technical Services]] and [[Raytheon]], starting in 1999, the Tactical Control System is designed to run UAVs in all branches of the [[Military of the United States\|United States military]] as well as [[NATO]] [[STANAG 4586]] compliant UAVs. Raytheon developed the systems to run on [[computer]]s using a type of [[Unix]] [[operating system]] called [[Solaris (operating system)\|Solaris 8]] from [[Sun Microsystems]]. Raytheon also developed a system for the [[Linux]] operating system. According to the winning Raytheon bid for the development of the TCS system, it will ~~be able to~~feature:▼ Developed by [[Raytheon]], around 1997, the '''Tactical Control System''' is designed to run '''UAV'''s in all branches of the [[US military]]. Also, under the [[NATO]] [[standardization policy 4586]] the '''Tactical Control System''' are set to run '''UAV''' in all NATO countries too. '''Raytheon''' has developed its systems to run on [[Unix]]-based computers with the [[Solaris 8]] operating system from [[Sun Microsystems]]. Raytheon has also has developed a [[Linux]] operating system too. ~~simultaneous~~Simultaneous control of multiple UAVs;▼ ▲According to the winning Raytheon bid for the development of the TCS system, it will be able to: ~~compliance~~Compliance with NATO's Standardization Agreement 4586▼ ~~integration~~Integration of plug and play payloads;▼ ▲simultaneous control of multiple UAVs; ~~the weaponization~~Weaponization of the Fire Scout and Fire Scout operational evaluations.▼ ▲compliance with NATO's Standardization Agreement 4586 ▲integration of plug and play payloads; ▲the weaponization of the Fire Scout and Fire Scout operational evaluations. ==Testing== Raytheon ~~will~~was to undergo formal Operational Evaluation with Fire Scout in [[~~fiscal~~Fiscal ~~year~~Year 2008]] ~~of 2008~~. Until ~~that time~~then, tests to determine the progress of the system's development ~~are~~were ~~ungoing~~ongoing. ~~So far there have been some positive~~Positive results ~~including~~included:▼ December, 2004 - ~~Using a~~A scaled down laptop version of TCS, the [[Multiple Vehicle Control System]] (MVCS), was asable ~~its name implies~~to control two [[UAVs]] flying over [[Arizona]] ~~st the same time~~simultaneously. ~~In addition to the two [[Arizona]] '''UAVs''' the~~The MVCS was also able to simultaneously control an unmanned surface vessel operating on [[Chesapeake Bay]] near [[Norfolk, Virginia~~\|Norfolk, Va~~]].▼ ▲Raytheon will undergo formal Operational Evaluation with Fire Scout in [[fiscal year]] of 2008. Until that time tests to determine the progress of the system's development are ungoing. So far there have been some positive results including: January, 2005 - The ~~'''~~TCS~~'''~~ system was able to complete a vertical shipboard landing on a moving target, (the US Navy ship [[USS Nashville (LPD-13)\|USS ''Nashville'']]), independent of any pilot. This was ~~The~~the first time ~~this~~such a feat ~~has~~had ever been achieved.▼ April 10, 2006 ~~/PRNewswire/ -~~- Raytheon Company ~~has~~ successfully simulated simultaneous command and control of two unmanned air vehicles ([[Unmanned aerial vehicle\|UAV]]) and an unmanned surface vehicle from ~~a single~~one common control system.▼ ==References== ▲December, 2004 - Using a scaled down laptop version of TCS, the [[Multiple Vehicle Control System]] (MVCS), was as its name implies control two [[UAVs]] flying over [[Arizona]] st the same time. In addition to the two [[Arizona]] '''UAVs''' the MVCS was also able to simultaneously control an unmanned surface vessel operating on [[Chesapeake Bay]] near [[Norfolk, Virginia\|Norfolk, Va]]. {{Reflist}} ▲January, 2005 - The '''TCS''' system was able to complete a vertical shipboard landing on a moving target (the US Navy ship [[USS Nashville]]), independent of any pilot. The first time this has ever been achieved. ▲April 10, 2006 /PRNewswire/ -- Raytheon Company has successfully simulated simultaneous command and control of two unmanned air vehicles (UAV) and an unmanned surface vehicle from a single common control ~~system.~~ ==External links== [http://www.navyleague.org/sea_power/jul06-22.php Navy ~~Article~~article July 2006]▼ ▲[http://www.navyleague.org/sea_power/jul06-22.php Navy Article July 2006] *[http://www.prnewswire.com/cgi-bin/micro_stories.pl?ACCT=683935&TICK=RTN6&STORY=/www/story/04-26-2004/0002159541&EDATE=Apr+26,+2004 Raytheon wins contract] [[Category:~~UAVs~~Unmanned ~~and drones\|~~aerial vehicles]] [[Category:~~Israel~~United ~~Aircraft~~States ~~Industries~~military aircraft]] ~~[[Category:Unmanned vehicles]]~~ ~~[[Category:Robots]]~~