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Military & Aerospace Electronics
July 2009
Tim Klassen |
The UAV Video Problem: Using Streaming Video with Unmanned Aerial Vehicles Unmanned aerial vehicles (UAVs) present different video handling requirements to traditional manned vehicles.   |
Military & Aerospace Electronics
August 2005
John Keller |
Navy looks into how to control next-generation autonomous unmanned aircraft U.S. Navy experts are redesigning the unmanned aerial vehicle control station of the future -- to accommodate new technologies and futuristic pilotless aircraft, and to reduce military manning levels by introducing more machine autonomy. |
Military & Aerospace Electronics
April 2007
John McHale |
Sensitive and Tireless: High-Endurance UAVs Sense What Men Cannot Sensors for unmanned aircraft are evolving in efficiency and capability as payload designers look for every possible edge in surveillance, combat, and collision avoidance. |
National Defense
November 2009
Grace V. Jean |
Robotic Humvees Resupply Troops Downrange The Defense Department is pushing hard for the development of fully autonomous robots that can replenish supplies, evacuate casualties and even search for explosives. |
National Defense
April 2014
David Antanitus |
Sailor-Less Ships Soon Could Be a Reality in U.S. Navy Is the Navy ready to embrace an autonomous surface ship operating with the battle group? Probably not, at least not yet. |
Military & Aerospace Electronics
September 2005
J.R. Wilson |
The evolution of UAV avionics Success of military unmanned aerial vehicles (UAVs) and development of new platforms for information, surveillance, and reconnaissance (ISR) has led to some significant advances in small-scale avionics systems. |
IEEE Spectrum
August 2011
Lora G. Weiss |
Autonomous Robots in the Fog of War Networks of autonomous robots will someday transform warfare, but significant hurdles remain. |
National Defense
March 2010
Grace V. Jean |
Shifting Sailors' Workload to Robots Still Wishful Thinking Unmanned vehicles are manpower-intensive technologies that require human control and monitoring often on a one-to-one basis. |
Military & Aerospace Electronics
December 2007
John McHale |
BAE Systems Funds Own Development of Unmanned Undersea Vehicles Engineers at BAE Systems are diving into the hot autonomous vehicle market with an undersea unmanned vehicle (UUV) they developed without an existing defense contract. |
Military & Aerospace Electronics
June 2005
John McHale |
Unmanned Vehicles: A Tactical Advantage and a Rich Market The obvious advantage on the battlefield translates into greater demand for all types of unmanned vehicles creating an industry that some estimate will have a value of about $22 billion worldwide in 10 years-and that is just for UAVs, the most mature unmanned platform. |
National Defense
August 2014
Valerie Insinna |
Military Ponders Future of Robotic Cargo Movers The K-MAX unmanned helicopter was deployed to Afghanistan in 2011 to haul cargo in and out of warzones. It allowed U.S. forces to cut ground convoys that were vulnerable to roadside bombs. |
Military & Aerospace Electronics
July 2007 |
Products Mercury offers integrated UAV-based reconnaissance system... Statek crystal oscillators for unmanned vehicles... Power-amplifier module from Merrimac Industries drives UAV communications links... etc. |
Military & Aerospace Electronics
August 2008
John Keller |
Swimming Robots Navy experts and industry leaders are looking into the latest generation of unmanned underwater vehicles (UUVs) for maritime applications ranging from training to covertly deploying weapons. |
Military & Aerospace Electronics
October 2006
Maureen Campbell |
Intelligence in Three Dimensions: We Live in a 3-D World, and so Should Computers Encouraged by the progress on target recognition and tracking for in-the-field use, engineers are extending the principle of intelligent 3-D processing to dynamic change detection. |
Military & Aerospace Electronics
April 2007 |
Mercury Introduces UAV Solution for Remote-Sensing Applications The integrated VistaNav-SSR (Smart Surveillance & Reconnaissance) unmanned aircraft system (UAS) is designed to improve operational mission capabilities for airborne intelligence applications at an affordable cost. |
Military & Aerospace Electronics
August 2006
Courtney E. Howard |
New UGV Technologies Hit the Ground Running in Urban and Off-Road Environments Unmanned ground vehicles (UGVs), an integral part of the U.S. Army's Future Combat Systems, continue to advance in technology and functionality, as evidenced by recent releases from industry vendors. |
Military & Aerospace Electronics
June 2009
John Keller |
The time has come for military ground robots Military robots for ground applications are coming into their own as U.S. Department of Defense (DOD) leaders are increasing their reliance on unmanned ground vehicles. |
Military & Aerospace Electronics
July 2004 |
Makers of ground robots ask for better sensors and communication links Troops in Iraq are in desperate need of unmanned ground systems (UGSs) to dispose of land mines and booby traps. |
National Defense
November 2007
Sandra I. Erwin |
Pentagon Publishes New Safety Guidelines For Unmanned Vehicles These comprehensive safety guidelines cover the design and operation of joint-service unmanned vehicles -- including unmanned aircraft and ground- and sea-based vehicles. |
National Defense
June 2015
Allyson Versprille |
Army Still Determining Best Use for Driverless Vehicles The Army's effort to introduce unmanned vehicles into its inventory has slowed as the service's budget tightens and questions remain on how the technology will be used. |
Military & Aerospace Electronics
July 2009
John Keller |
A Detailed Look at the Pentagon's $5.4 Billion Plan in 2010 to Develop and Deploy U.S. military forces plan to spend nearly $5.4 billion next year on unmanned vehicle (UV) technology for air, ground, and maritime applications. |
National Defense
May 2004
Roxana Tiron |
Warfare by Remote Control A long-awaited robotic security system--capable of detecting intruders, assessing their intentions, communicating their location and even stopping them in their tracks--will be evaluated next month at Hawthorne Army Depot, Nev. |
Military & Aerospace Electronics
August 2005
Ben Ames |
Vetronics for the Future Combat System The next-generation vetronics systems will be a single web that can share data among themselves, with neighboring vehicles, and even with nearby soldiers and distant commanders. |
Military & Aerospace Electronics
October 2004
John Keller |
Vetronics of the Future Combat System The electronic and optoelectronic technologies of the future battlefield will help provide unprecedented situational awareness and maneuver capability to U.S. and allied ground troops. |
National Defense
June 2009
Matthew Rusling |
Navy to Explore New Ways to Employ Underwater Robots The goal is to deploy unmanned vehicles that can find buried mines, pinpoint enemy submarines and help to protect coastal areas from terrorist attacks. |
Military & Aerospace Electronics
July 2009
John Keller |
Unmanned Vehicles Leave Boot Camp to Join the Regular Forces Unmanned vehicles are becoming plentiful on-and over-the modern battlefield, yet these automated systems until recently have been seen largely as military curiosities, not standard equipment. That's all about to change. |
National Defense
September 2013
Dan Parsons |
Bigger Brains, Better Batteries Will Enable New Missions For Robotic Submarines As the Navy takes on a larger role in national security strategy following the conclusion of two land wars, unmanned underwater vehicles may have another shot at becoming a technology favored in future budgets. |
Military & Aerospace Electronics
September 2004 |
Shepherding J-UCAS An interview with Dr. Michael S. Francis, director of the Joint Unmanned Combat Air Systems program on aircraft development and operation, as well as contractors involved in the project. |
National Defense
November 2012
Yasmin Tadjdeh |
Unmanned Aerial Vehicles to Become Lighter, Faster In the future, the military can expect to have unmanned aerial vehicles that are faster, stealthier and lighter, with longer endurance and can hold heavier payloads. |
National Defense
May 2004
Frank Colucci |
Schoolhouses for UAV Pilots Up and Running The U.S. Army has set up training programs for the Hunter and new Shadow tactical unmanned aircraft at Fort Huachuca, Ariz. |
Military & Aerospace Electronics
July 2009 |
Products ACT/Technico offers Gigabit Ethernet switches... Adimec offers 2-megapixel camera for unmanned vehicle applications... Aitech introduces Core 2 Duo-based single-board computer for use aboard UAVs... etc. |
National Defense
July 2012
Dan Parsons |
Teaming Pilots With Drones Hampered By Technology The Army recently found that the most cost effective solution to replace its scout helicopters was a mix of traditional rotary wing platforms and unmanned aerial vehicles flying alongside to cover more ground in a single mission. |
National Defense
August 2015
Yasmin Tadjdeh |
More Sophisticated, Autonomous Unmanned Aircraft on the Horizon In the future, unmanned aerial systems will hold even more utility as they become faster, stealthier and more autonomous, experts said. At the same time, they will become more accessible to foreign countries and terrorist groups around the world. |
Military & Aerospace Electronics
July 2004
Deschenes & Sanderson |
Next-Generation UAVs Leverage FPGA Computing Technology The military's effective use of unmanned aerial vehicles (UAVs) in recent conflicts has highlighted their successes, which are vigorously driving UAV technology developments. |
Military & Aerospace Electronics
May 2008
John McHale |
Unmanned Systems Impact Battlefield and the Market Despite a lowing economy, the market for unmanned systems is expect grow significantly over the next five years with various market studies seeing a double-digit billion dollar market. |
Military & Aerospace Electronics
January 2007
J.R. Wilson |
Manned and Unmanned Aircraft to Share Controlled and Commercial Airspace Governments, organizations, and industries throughout the world are trying to find ways of developing electronic and electro-optical technologies to enable unmanned aerial vehicles to operate together safely. |
National Defense
September 2014
Yasmin Tadjdeh |
As Technology Matures, New Roles Emerge for Underwater Drones While unmanned underwater vehicle technology is advancing, it is not maturing as quickly as UAVs. |
Military & Aerospace Electronics
July 2009
J.R. Wilson |
Unmanned Aerial Vehicles Get Ready for Prime Time Government leaders are supportive of unmanned aerial vehicles (UAVs) use in non-military applications such as border control, emergency response, law enforcement, and forest fire surveillance. |
Defense Update
March 2007 |
Smart Weapons for UAVs The Origins of Weaponized UAVs... Deployment of Weaponized UAVs... Gravity Dropped Munitions for UAVs... etc. |
Military & Aerospace Electronics
July 2004 |
Unmanned vehicles: one of the hottest technologies going Unmanned air, ground, and underwater vehicles are finding important new niches in military and aerospace applications. |
Popular Mechanics
August 14, 2009
Joe Pappalardo |
Autonomous Autos: New Kit Converts Any Vehicle Into a Robot (With Video) Utah-based Kairos Autonomi sells a conversion kit called the Pronto4 Strap-On Autonomy System that can transform any steered vehicle into an autonomous unmanned ground vehicle. |
Military & Aerospace Electronics
September 2009
Courtney E. Howard |
Advanced Vetronics: Hit the Ground Running Industry heeds the warfighter's call for innovative, responsive, and reliable electronics in combat vehicles on the ground. |
Military & Aerospace Electronics
June 2006
John McHale |
Robots Are Fearless The U.S. Army's Future Combat Systems program will integrate unmanned ground vehicles into a future force. Autonomous ground vehicles promise to be a major paradigm shift in ground warfare. |
National Defense
February 2012
Dan Parsons |
Air Force F-35s, Drones May Square Off in Budget Battle Unmanned aerial vehicles have become a potent portion of the U.S. Air Force inventory and an indispensable weapon in the global war on terror. |
National Defense
May 2004
Sandra Erwin |
Navy Adjusts Course for Underwater Robots The Navy is updating its blueprint for future undersea robotic vehicles to reflect recent changes in military strategy. |
Military & Aerospace Electronics
July 2004 |
Products Telepresence tactile feedback system... Actuators for unmanned-aerial-vehicle applications... Rugged COTS airborne computer with 3U CompactPCI cards... VME single-board embedded computer... etc. |
National Defense
June 2005
Joe Pappalardo |
The Future May Belong to Unconventional Designs, Missions Unmanned aerial vehicles spying on enemies may be commonplace above today's battlefields, but there is a future generation of unconventional designs with added functions that, experts predict, almost certainly will displace current drones from their lonely, lofty perches. |
Military & Aerospace Electronics
July 2007
J.R. Wilson |
Hunter-Killer UAVs to swarm battlefields Hunter-Killer: by most definitions, the term designates an entirely new class of UAV, not a weaponized sensor platform, such as the MQ-1 Predator, but an aircraft designed from the beginning to seek out and strike targets. |
Military & Aerospace Electronics
May 2008
John McHale |
UAV Market Outlook Strong Defense and aerospace analysts say the most vibrant growth in the industry lays with unmanned systems, specifically unmanned aerial vehicles (UAVs). |
National Defense
July 2004
Michael Peck |
Pentagon Setting Guidelines For Aircraft Interoperability As the number and types of unmanned aircraft continues to grow in the U.S. military services, the Pentagon is pushing the notion that UAVs should have standard interfaces so they can interact with each other. |
