Autonomous surface vehicle Stock Photos and Images
Mad Fox autonomous surface vehicle (drone boat) undergoing sea trials in Portsmouth Harbour, UK on the 22nd October 2020. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/mad-fox-autonomous-surface-vehicle-drone-boat-undergoing-sea-trials-in-portsmouth-harbour-uk-on-the-22nd-october-2020-image392257348.html
RM2DP4T70–Mad Fox autonomous surface vehicle (drone boat) undergoing sea trials in Portsmouth Harbour, UK on the 22nd October 2020.
iXblue DriX unmanned surface vessel doing demonstration runs in London's Royal Docks as part of the Oceanology International 2018 exhibition Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-ixblue-drix-unmanned-surface-vessel-doing-demonstration-runs-in-londons-177395276.html
RMM8H1DG–iXblue DriX unmanned surface vessel doing demonstration runs in London's Royal Docks as part of the Oceanology International 2018 exhibition
San Diego, United States of America. 28 September, 2022. U.S. Secretary of Defense Lloyd J. Austin III, tours the pilot house of an Unmanned Surface Vehicle Sea Hunter during a visit to Naval Station Point Loma, September 28, 2022 in San Diego, California. Credit: Chad J. McNeeley/DOD/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/san-diego-united-states-of-america-28-september-2022-us-secretary-of-defense-lloyd-j-austin-iii-tours-the-pilot-house-of-an-unmanned-surface-vehicle-sea-hunter-during-a-visit-to-naval-station-point-loma-september-28-2022-in-san-diego-california-credit-chad-j-mcneeleydodalamy-live-news-image484714868.html
RM2K4GJN8–San Diego, United States of America. 28 September, 2022. U.S. Secretary of Defense Lloyd J. Austin III, tours the pilot house of an Unmanned Surface Vehicle Sea Hunter during a visit to Naval Station Point Loma, September 28, 2022 in San Diego, California. Credit: Chad J. McNeeley/DOD/Alamy Live News
Hamburg, Germany. 11th Mar, 2020. The first autonomous drone for surveying waters, 'echo.1', is on its way to Hafencity after a naming ceremony in Sandtorhafen harbour. The so-called Autonomous Surface Vehicle (ASV) with its electric drive can be on the move for up to six hours to further improve data on water depths in the Port of Hamburg. Credit: Christian Charisius/dpa/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/hamburg-germany-11th-mar-2020-the-first-autonomous-drone-for-surveying-waters-echo1-is-on-its-way-to-hafencity-after-a-naming-ceremony-in-sandtorhafen-harbour-the-so-called-autonomous-surface-vehicle-asv-with-its-electric-drive-can-be-on-the-move-for-up-to-six-hours-to-further-improve-data-on-water-depths-in-the-port-of-hamburg-credit-christian-charisiusdpaalamy-live-news-image348326330.html
RM2B6KHP2–Hamburg, Germany. 11th Mar, 2020. The first autonomous drone for surveying waters, 'echo.1', is on its way to Hafencity after a naming ceremony in Sandtorhafen harbour. The so-called Autonomous Surface Vehicle (ASV) with its electric drive can be on the move for up to six hours to further improve data on water depths in the Port of Hamburg. Credit: Christian Charisius/dpa/Alamy Live News
Apollo is an Unmanned Surface Vehicle (USV) used for autonomous mine countermeasures operations by the Royal Navy. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/apollo-is-an-unmanned-surface-vehicle-usv-used-for-autonomous-mine-countermeasures-operations-by-the-royal-navy-image494448617.html
RM2KMC275–Apollo is an Unmanned Surface Vehicle (USV) used for autonomous mine countermeasures operations by the Royal Navy.
The autonomous unmanned surface vehicle DriX from iXblue is towed towards port in Plymouth Sound, Devon, UK. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-autonomous-unmanned-surface-vehicle-drix-from-ixblue-is-towed-towards-port-in-plymouth-sound-devon-uk-image455323418.html
RM2HCNNJJ–The autonomous unmanned surface vehicle DriX from iXblue is towed towards port in Plymouth Sound, Devon, UK.
150711-N-PO203-042 VIRGINIA BEACH, Virginia (July 11, 2015) An autonomous surface vehicle from the University of Central Florida attempts to complete a docking challenge July 11 as part of the annual International RoboBoat Competition sponsored by the AUVSI Foundation and Office of Naval Research. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150711-N-PO203-042 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-150711-n-po203-042-virginia-beach-virginia-july-11-2015-an-autonomous-129977125.html
RMHFCY45–150711-N-PO203-042 VIRGINIA BEACH, Virginia (July 11, 2015) An autonomous surface vehicle from the University of Central Florida attempts to complete a docking challenge July 11 as part of the annual International RoboBoat Competition sponsored by the AUVSI Foundation and Office of Naval Research. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150711-N-PO203-042
White electric SUV on geometric hard surface ground. 3D rendering image. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/white-electric-suv-on-geometric-hard-surface-ground-3d-rendering-image-image177722410.html
RFM93XMX–White electric SUV on geometric hard surface ground. 3D rendering image.
Close-up shot of Mars rover exploration vehicle on red planet surface Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/close-up-shot-of-mars-rover-exploration-vehicle-on-red-planet-surface-image508298256.html
RF2MEXYH4–Close-up shot of Mars rover exploration vehicle on red planet surface
PHILIPPINE SEA (July 4, 2022) - A turntable launch and recovery system recovers an Aerosonde unmanned aerial vehicle on the flight deck of Arleigh Burke-class guided-missile destroyer USS Higgins (DDG 76) while conducting operations in the U.S. 7th Fleet area of operations, July 4, 2022. Higgins is assigned to Commander, Task Force (CTF) 71/Destroyer Squadron (DESRON) 15, the Navy’s largest forward-deployed DESRON and the U.S. 7th Fleet’s principal surface force. (U.S. Navy photo by Mass Communication Specialist 1st Class Donavan K. Patubo) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/philippine-sea-july-4-2022-a-turntable-launch-and-recovery-system-recovers-an-aerosonde-unmanned-aerial-vehicle-on-the-flight-deck-of-arleigh-burke-class-guided-missile-destroyer-uss-higgins-ddg-76-while-conducting-operations-in-the-us-7th-fleet-area-of-operations-july-4-2022-higgins-is-assigned-to-commander-task-force-ctf-71destroyer-squadron-desron-15-the-navys-largest-forward-deployed-desron-and-the-us-7th-fleets-principal-surface-force-us-navy-photo-by-mass-communication-specialist-1st-class-donavan-k-patubo-image485058724.html
RF2K5499T–PHILIPPINE SEA (July 4, 2022) - A turntable launch and recovery system recovers an Aerosonde unmanned aerial vehicle on the flight deck of Arleigh Burke-class guided-missile destroyer USS Higgins (DDG 76) while conducting operations in the U.S. 7th Fleet area of operations, July 4, 2022. Higgins is assigned to Commander, Task Force (CTF) 71/Destroyer Squadron (DESRON) 15, the Navy’s largest forward-deployed DESRON and the U.S. 7th Fleet’s principal surface force. (U.S. Navy photo by Mass Communication Specialist 1st Class Donavan K. Patubo)
151202-N-ZZ999-002 SPLIT, Croatia (Dec. 2, 2015) Explosive Ordnance Disposal Technician 2nd Class Tanner Johnson, assigned to Explosive Ordnance Disposal Mobile Unit (EODMU) 8, assists a Croatian diver ballasting an IVER 3 Autonomous Underwater Vehicle (AUV) and conducting surface checks before starting the mission Dec. 2, 2015. U.S. 6th Fleet, headquartered in Naples, Italy, conducts the full spectrum of joint and naval operations, often in concert with allied, joint, and interagency partners, in order to advance U.S. national interests and security and stability in Europe and Africa. (U.S. N Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-151202-n-zz999-002-split-croatia-dec-2-2015-explosive-ordnance-disposal-101103457.html
RMFTDJDN–151202-N-ZZ999-002 SPLIT, Croatia (Dec. 2, 2015) Explosive Ordnance Disposal Technician 2nd Class Tanner Johnson, assigned to Explosive Ordnance Disposal Mobile Unit (EODMU) 8, assists a Croatian diver ballasting an IVER 3 Autonomous Underwater Vehicle (AUV) and conducting surface checks before starting the mission Dec. 2, 2015. U.S. 6th Fleet, headquartered in Naples, Italy, conducts the full spectrum of joint and naval operations, often in concert with allied, joint, and interagency partners, in order to advance U.S. national interests and security and stability in Europe and Africa. (U.S. N
Slocum ocean glider on surface of stormy sea, Great Barrier Reef, Queensland, Australia. No PR Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/slocum-ocean-glider-on-surface-of-stormy-sea-great-barrier-reef-queensland-australia-no-pr-image357845903.html
RM2BP582R–Slocum ocean glider on surface of stormy sea, Great Barrier Reef, Queensland, Australia. No PR
(240522) -- HANGZHOU, May 22, 2024 (Xinhua) -- A screen displays real-time road surface situation and operational information inside an autonomous driving minibus that runs on a road in Yuhang District, Hangzhou City, east China's Zhejiang Province, May 22, 2024. The autonomous driving bus route in Yuhang District is the first one of its kind powered by vehicle-road coordination technology in Hangzhou. This 5-kilometer bus line winds through schools, industrial parks, residential compounds and subway stations, free of charge for all citizens. Autonomous driving buses achieve holographic sensi Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/240522-hangzhou-may-22-2024-xinhua-a-screen-displays-real-time-road-surface-situation-and-operational-information-inside-an-autonomous-driving-minibus-that-runs-on-a-road-in-yuhang-district-hangzhou-city-east-chinas-zhejiang-province-may-22-2024-the-autonomous-driving-bus-route-in-yuhang-district-is-the-first-one-of-its-kind-powered-by-vehicle-road-coordination-technology-in-hangzhou-this-5-kilometer-bus-line-winds-through-schools-industrial-parks-residential-compounds-and-subway-stations-free-of-charge-for-all-citizens-autonomous-driving-buses-achieve-holographic-sensi-image607301470.html
RM2X80Y66–(240522) -- HANGZHOU, May 22, 2024 (Xinhua) -- A screen displays real-time road surface situation and operational information inside an autonomous driving minibus that runs on a road in Yuhang District, Hangzhou City, east China's Zhejiang Province, May 22, 2024. The autonomous driving bus route in Yuhang District is the first one of its kind powered by vehicle-road coordination technology in Hangzhou. This 5-kilometer bus line winds through schools, industrial parks, residential compounds and subway stations, free of charge for all citizens. Autonomous driving buses achieve holographic sensi
Semiconductor electronic chips in automotive industry. Car control - management systems. Smart automobile microchip concept background. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/semiconductor-electronic-chips-in-automotive-industry-car-control-management-systems-smart-automobile-microchip-concept-background-image592413011.html
RF2WBPMRF–Semiconductor electronic chips in automotive industry. Car control - management systems. Smart automobile microchip concept background.
0901144515N-151 HAMPTON, Va. (Jan. 14, 2009) The Navy, in conjunction with the Spatial Integrated Systems Incorporated, holds a demonstration of a fully autonomous unmanned surface vehicle (USV) at Fort Monroe. A harbor patrol scenario depicts how the USV uses its autonomous maritime navigation systems to patrol and scan designated areas for intruders using onboard sensors and obstacle avoidance software in order to carry out its mission and report back its findings to a command center. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/0901144515n-151-hampton-va-jan-14-2009-the-navy-in-conjunction-with-the-spatial-integrated-systems-incorporated-holds-a-demonstration-of-a-fully-autonomous-unmanned-surface-vehicle-usv-at-fort-monroe-a-harbor-patrol-scenario-depicts-how-the-usv-uses-its-autonomous-maritime-navigation-systems-to-patrol-and-scan-designated-areas-for-intruders-using-onboard-sensors-and-obstacle-avoidance-software-in-order-to-carry-out-its-mission-and-report-back-its-findings-to-a-command-center-image571084617.html
RM2T53475–0901144515N-151 HAMPTON, Va. (Jan. 14, 2009) The Navy, in conjunction with the Spatial Integrated Systems Incorporated, holds a demonstration of a fully autonomous unmanned surface vehicle (USV) at Fort Monroe. A harbor patrol scenario depicts how the USV uses its autonomous maritime navigation systems to patrol and scan designated areas for intruders using onboard sensors and obstacle avoidance software in order to carry out its mission and report back its findings to a command center.
ARABIAN GULF (Dec. 4, 2021) A MANTAS T-38 unmanned surface vessel operates in the Arabian Gulf. Ongoing evaluations of new unmanned systems in U.S. 5th Fleet drives discovery, innovation, and integration into fleet operations. (U.S. Army photo by Sgt. David Resnick) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/arabian-gulf-dec-4-2021-a-mantas-t-38-unmanned-surface-vessel-operates-in-the-arabian-gulf-ongoing-evaluations-of-new-unmanned-systems-in-us-5th-fleet-drives-discovery-innovation-and-integration-into-fleet-operations-us-army-photo-by-sgt-david-resnick-image485058566.html
RF2K54946–ARABIAN GULF (Dec. 4, 2021) A MANTAS T-38 unmanned surface vessel operates in the Arabian Gulf. Ongoing evaluations of new unmanned systems in U.S. 5th Fleet drives discovery, innovation, and integration into fleet operations. (U.S. Army photo by Sgt. David Resnick)
Banana Boat in Bougainville, Papua New Guinea Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/banana-boat-in-bougainville-papua-new-guinea-image341175576.html
RF2AR1TX0–Banana Boat in Bougainville, Papua New Guinea
PACIFIC OCEAN (Sept. 18, 2019) Sailors push back an MQ-8B Fire Scout assigned to the “Wildcards” of Helicopter Sea Combat Squadron (HSC) 23 on the flight deck of Independence-variant littoral combat ship USS Gabrielle Giffords (LCS 10). Gabrielle Giffords is on a rotational deployment to Southeast Asia and is the fifth LCS to deploy to the region. Fast, agile and networked surface combatants, LCS are optimized for operating near-shore environments. (U.S. Navy photo by Mass Communication Specialist 3rd Class Josiah J. Kunkle/Released) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/pacific-ocean-sept-18-2019-sailors-push-back-an-mq-8b-fire-scout-assigned-to-the-wildcards-of-helicopter-sea-combat-squadron-hsc-23-on-the-flight-deck-of-independence-variant-littoral-combat-ship-uss-gabrielle-giffords-lcs-10-gabrielle-giffords-is-on-a-rotational-deployment-to-southeast-asia-and-is-the-fifth-lcs-to-deploy-to-the-region-fast-agile-and-networked-surface-combatants-lcs-are-optimized-for-operating-near-shore-environments-us-navy-photo-by-mass-communication-specialist-3rd-class-josiah-j-kunklereleased-image485058236.html
RF2K548MC–PACIFIC OCEAN (Sept. 18, 2019) Sailors push back an MQ-8B Fire Scout assigned to the “Wildcards” of Helicopter Sea Combat Squadron (HSC) 23 on the flight deck of Independence-variant littoral combat ship USS Gabrielle Giffords (LCS 10). Gabrielle Giffords is on a rotational deployment to Southeast Asia and is the fifth LCS to deploy to the region. Fast, agile and networked surface combatants, LCS are optimized for operating near-shore environments. (U.S. Navy photo by Mass Communication Specialist 3rd Class Josiah J. Kunkle/Released)
181031-N-YG220-003 (Feb. 1, 2019) Sea Hunter, an entirely new class of unmanned sea surface vehicle developed in partnership between the Office of Naval Research (ONR) and the Defense Advanced Research Projects Agency (DARPA), recently completed an autonomous sail from San Diego to Hawaii and back—the first ship ever to do so autonomously. Sea Hunter is part of ONR’s Medium Displacement Unmanned Surface Vehicle (MDUSV) project. (U.S. Navy photo) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/181031-n-yg220-003-feb-1-2019-sea-hunter-an-entirely-new-class-of-unmanned-sea-surface-vehicle-developed-in-partnership-between-the-office-of-naval-research-onr-and-the-defense-advanced-research-projects-agency-darpa-recently-completed-an-autonomous-sail-from-san-diego-to-hawaii-and-backthe-first-ship-ever-to-do-so-autonomously-sea-hunter-is-part-of-onrs-medium-displacement-unmanned-surface-vehicle-mdusv-project-us-navy-photo-image244413936.html
RMT5J0D4–181031-N-YG220-003 (Feb. 1, 2019) Sea Hunter, an entirely new class of unmanned sea surface vehicle developed in partnership between the Office of Naval Research (ONR) and the Defense Advanced Research Projects Agency (DARPA), recently completed an autonomous sail from San Diego to Hawaii and back—the first ship ever to do so autonomously. Sea Hunter is part of ONR’s Medium Displacement Unmanned Surface Vehicle (MDUSV) project. (U.S. Navy photo)
iXblue DriX unmanned surface vessel doing demonstration runs in London's Royal Docks as part of the Oceanology International 2018 exhibition Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-ixblue-drix-unmanned-surface-vessel-doing-demonstration-runs-in-londons-177395284.html
RMM8H1DT–iXblue DriX unmanned surface vessel doing demonstration runs in London's Royal Docks as part of the Oceanology International 2018 exhibition
San Diego, United States of America. 28 September, 2022. U.S. Secretary of Defense Lloyd J. Austin III, tours the pilot house of an Unmanned Surface Vehicle Sea Hunter during a visit to Naval Station Point Loma, September 28, 2022 in San Diego, California. Credit: Chad J. McNeeley/DOD/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/san-diego-united-states-of-america-28-september-2022-us-secretary-of-defense-lloyd-j-austin-iii-tours-the-pilot-house-of-an-unmanned-surface-vehicle-sea-hunter-during-a-visit-to-naval-station-point-loma-september-28-2022-in-san-diego-california-credit-chad-j-mcneeleydodalamy-live-news-image484714808.html
RM2K4GJK4–San Diego, United States of America. 28 September, 2022. U.S. Secretary of Defense Lloyd J. Austin III, tours the pilot house of an Unmanned Surface Vehicle Sea Hunter during a visit to Naval Station Point Loma, September 28, 2022 in San Diego, California. Credit: Chad J. McNeeley/DOD/Alamy Live News
Hamburg, Germany. 11th Mar, 2020. The first autonomous drone for surveying waters, 'echo.1', is on its way to Hafencity after a naming ceremony in Sandtorhafen harbour. The so-called Autonomous Surface Vehicle (ASV) with its electric drive can be on the move for up to six hours to further improve data on water depths in the Port of Hamburg. Credit: Christian Charisius/dpa/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/hamburg-germany-11th-mar-2020-the-first-autonomous-drone-for-surveying-waters-echo1-is-on-its-way-to-hafencity-after-a-naming-ceremony-in-sandtorhafen-harbour-the-so-called-autonomous-surface-vehicle-asv-with-its-electric-drive-can-be-on-the-move-for-up-to-six-hours-to-further-improve-data-on-water-depths-in-the-port-of-hamburg-credit-christian-charisiusdpaalamy-live-news-image348326325.html
RM2B6KHNW–Hamburg, Germany. 11th Mar, 2020. The first autonomous drone for surveying waters, 'echo.1', is on its way to Hafencity after a naming ceremony in Sandtorhafen harbour. The so-called Autonomous Surface Vehicle (ASV) with its electric drive can be on the move for up to six hours to further improve data on water depths in the Port of Hamburg. Credit: Christian Charisius/dpa/Alamy Live News
220921-N-NO146-1002 GULF OF AQABA (Sept. 21, 2022) Vessels from the Israeli Navy and U.S. Naval Forces Central Command operate in the Gulf of Aqaba with two unmanned surface vessels, a Devil Ray T-38, top, and Saildrone Explorer, bottom, during exercise Digital Shield, Sept. 21. Digital Shield is a bilateral training exercise between U.S. Naval Forces Central Command and Israeli naval forces that focuses on enhancing maritime awareness using unmanned systems and artificial intelligence in support of vessel boarding operations. (Courtesy Photo) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/220921-n-no146-1002-gulf-of-aqaba-sept-21-2022-vessels-from-the-israeli-navy-and-us-naval-forces-central-command-operate-in-the-gulf-of-aqaba-with-two-unmanned-surface-vessels-a-devil-ray-t-38-top-and-saildrone-explorer-bottom-during-exercise-digital-shield-sept-21-digital-shield-is-a-bilateral-training-exercise-between-us-naval-forces-central-command-and-israeli-naval-forces-that-focuses-on-enhancing-maritime-awareness-using-unmanned-systems-and-artificial-intelligence-in-support-of-vessel-boarding-operations-courtesy-photo-image485058804.html
RF2K549CM–220921-N-NO146-1002 GULF OF AQABA (Sept. 21, 2022) Vessels from the Israeli Navy and U.S. Naval Forces Central Command operate in the Gulf of Aqaba with two unmanned surface vessels, a Devil Ray T-38, top, and Saildrone Explorer, bottom, during exercise Digital Shield, Sept. 21. Digital Shield is a bilateral training exercise between U.S. Naval Forces Central Command and Israeli naval forces that focuses on enhancing maritime awareness using unmanned systems and artificial intelligence in support of vessel boarding operations. (Courtesy Photo)
Hamburg, Germany. 20th Aug, 2019. An autonomous surface vehicle of the type 'C-Worker 5 - Hydrographic Survey ASV' is located at a jetty in the port of Hamburg. On Tuesday, the Hamburg Port Authority HPA presented two autonomous vehicles for water measurement. During the demonstration the boats were remote controlled by an operator in a harbour basin. Credit: Christian Charisius/dpa/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/hamburg-germany-20th-aug-2019-an-autonomous-surface-vehicle-of-the-type-c-worker-5-hydrographic-survey-asv-is-located-at-a-jetty-in-the-port-of-hamburg-on-tuesday-the-hamburg-port-authority-hpa-presented-two-autonomous-vehicles-for-water-measurement-during-the-demonstration-the-boats-were-remote-controlled-by-an-operator-in-a-harbour-basin-credit-christian-charisiusdpaalamy-live-news-image264641265.html
RMWAFCHN–Hamburg, Germany. 20th Aug, 2019. An autonomous surface vehicle of the type 'C-Worker 5 - Hydrographic Survey ASV' is located at a jetty in the port of Hamburg. On Tuesday, the Hamburg Port Authority HPA presented two autonomous vehicles for water measurement. During the demonstration the boats were remote controlled by an operator in a harbour basin. Credit: Christian Charisius/dpa/Alamy Live News
150711-N-PO203-029 VIRGINIA BEACH, Virginia (July 11, 2015) Judges evaluate the University of Florida's autonomous surface vehicle, PropaGator, as it navigates an aquatic obstacle course July 11 during the annual AUVSI Foundation and Office of Naval Research-sponsored International RoboBoat competition in Virginia Beach, Virginia. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150711-N-PO203-029 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-150711-n-po203-029-virginia-beach-virginia-july-11-2015-judges-evaluate-129977126.html
RMHFCY46–150711-N-PO203-029 VIRGINIA BEACH, Virginia (July 11, 2015) Judges evaluate the University of Florida's autonomous surface vehicle, PropaGator, as it navigates an aquatic obstacle course July 11 during the annual AUVSI Foundation and Office of Naval Research-sponsored International RoboBoat competition in Virginia Beach, Virginia. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150711-N-PO203-029
150710-N-PO203-264 VIRGINIA BEACH, Virginia (July 10, 2015) A student from the University of Michigan awaits word from her team to release their autonomous surface vehicle for a practice run July 10 in the prep for the 2015 AUVSI Foundation and Office of Naval Research-sponsored International RoboBoat Competition held in Virginia Beach, Va. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-264 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-150710-n-po203-264-virginia-beach-virginia-july-10-2015-a-student-129977122.html
RMHFCY42–150710-N-PO203-264 VIRGINIA BEACH, Virginia (July 10, 2015) A student from the University of Michigan awaits word from her team to release their autonomous surface vehicle for a practice run July 10 in the prep for the 2015 AUVSI Foundation and Office of Naval Research-sponsored International RoboBoat Competition held in Virginia Beach, Va. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-264
White electric SUV on geometric hard surface ground. 3D rendering image. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/white-electric-suv-on-geometric-hard-surface-ground-3d-rendering-image-image177722411.html
RFM93XMY–White electric SUV on geometric hard surface ground. 3D rendering image.
181031-N-YG220-002 (Oct. 31, 2018) Sea Hunter, an entirely new class of unmanned sea surface vehicle developed in partnership between the Office of Naval Research (ONR) and the Defense Advanced Research Projects Agency (DARPA), recently completed an autonomous sail from San Diego to Hawaii and back—the first ship ever to do so autonomously. Sea Hunter is part of ONR’s Medium Displacement Unmanned Surface Vehicle (MDUSV) project. (U.S. Navy photo) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/181031-n-yg220-002-oct-31-2018-sea-hunter-an-entirely-new-class-of-unmanned-sea-surface-vehicle-developed-in-partnership-between-the-office-of-naval-research-onr-and-the-defense-advanced-research-projects-agency-darpa-recently-completed-an-autonomous-sail-from-san-diego-to-hawaii-and-backthe-first-ship-ever-to-do-so-autonomously-sea-hunter-is-part-of-onrs-medium-displacement-unmanned-surface-vehicle-mdusv-project-us-navy-photo-image244413931.html
RMT5J0CY–181031-N-YG220-002 (Oct. 31, 2018) Sea Hunter, an entirely new class of unmanned sea surface vehicle developed in partnership between the Office of Naval Research (ONR) and the Defense Advanced Research Projects Agency (DARPA), recently completed an autonomous sail from San Diego to Hawaii and back—the first ship ever to do so autonomously. Sea Hunter is part of ONR’s Medium Displacement Unmanned Surface Vehicle (MDUSV) project. (U.S. Navy photo)
Peter Herzig (L), director of IFM-GEOMAR (Leibniz Institute of Marine Sciences at the Christian-Albrechts University of Kiel), and Klas Lackschewitz, project manager of AUV (Autonomous Underwater Vehicle) chat behind the new deep-submergence vehicle 'ABYSS' in Kiel, Germany, 16 October 2008. ABYSS can dive up to 6,000 meters deep and then surface independently and without a cable j Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-peter-herzig-l-director-of-ifm-geomar-leibniz-institute-of-marine-54465288.html
RMD4H30T–Peter Herzig (L), director of IFM-GEOMAR (Leibniz Institute of Marine Sciences at the Christian-Albrechts University of Kiel), and Klas Lackschewitz, project manager of AUV (Autonomous Underwater Vehicle) chat behind the new deep-submergence vehicle 'ABYSS' in Kiel, Germany, 16 October 2008. ABYSS can dive up to 6,000 meters deep and then surface independently and without a cable j
Engineers with the Naval Information Warfare Center unload a Wave Glider at Marine Corps Air Station Camp Pendleton, California, March 9, 2022. The Wave Glider is an unmanned surface vehicle with persistent autonomous sensors that receive and send data providing increased maritime dominance in support of Expeditionary Advanced Base Operations. Air deployment of Wave Gliders drastically reduces transit time to deployment location. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/engineers-with-the-naval-information-warfare-center-unload-a-wave-glider-at-marine-corps-air-station-camp-pendleton-california-march-9-2022-the-wave-glider-is-an-unmanned-surface-vehicle-with-persistent-autonomous-sensors-that-receive-and-send-data-providing-increased-maritime-dominance-in-support-of-expeditionary-advanced-base-operations-air-deployment-of-wave-gliders-drastically-reduces-transit-time-to-deployment-location-image502501449.html
RM2M5EWM9–Engineers with the Naval Information Warfare Center unload a Wave Glider at Marine Corps Air Station Camp Pendleton, California, March 9, 2022. The Wave Glider is an unmanned surface vehicle with persistent autonomous sensors that receive and send data providing increased maritime dominance in support of Expeditionary Advanced Base Operations. Air deployment of Wave Gliders drastically reduces transit time to deployment location.
cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture of automotive parts Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/cracks-and-damaged-rubber-of-the-car-steering-wheel-due-to-long-exposure-to-the-sunlight-substandard-materials-in-the-manufacture-of-automotive-parts-image547678449.html
RF2PR0WCH–cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture of automotive parts
Macau is an autonomous region on the south coast of China, across the Pearl River Delta from Hong Kong Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/macau-is-an-autonomous-region-on-the-south-coast-of-china-across-the-pearl-river-delta-from-hong-kong-image591358954.html
RF2WA2MAJ–Macau is an autonomous region on the south coast of China, across the Pearl River Delta from Hong Kong
0901144515N-268 HAMPTON, Va. (Jan. 14, 2009) The Navy, in conjunction with the Spatial Integrated Systems Incorporated, holds a demonstration of a fully autonomous Unmanned Surface Vehicle (USV) at Fort Monroe. A harbor patrol scenario depicts how the USV uses its autonomous maritime navigation systems to patrol and scan designated areas for intruders using onboard sensors and obstacle avoidance software in order to carry out its mission and report back its findings to a command center. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/0901144515n-268-hampton-va-jan-14-2009-the-navy-in-conjunction-with-the-spatial-integrated-systems-incorporated-holds-a-demonstration-of-a-fully-autonomous-unmanned-surface-vehicle-usv-at-fort-monroe-a-harbor-patrol-scenario-depicts-how-the-usv-uses-its-autonomous-maritime-navigation-systems-to-patrol-and-scan-designated-areas-for-intruders-using-onboard-sensors-and-obstacle-avoidance-software-in-order-to-carry-out-its-mission-and-report-back-its-findings-to-a-command-center-image571084607.html
RM2T5346R–0901144515N-268 HAMPTON, Va. (Jan. 14, 2009) The Navy, in conjunction with the Spatial Integrated Systems Incorporated, holds a demonstration of a fully autonomous Unmanned Surface Vehicle (USV) at Fort Monroe. A harbor patrol scenario depicts how the USV uses its autonomous maritime navigation systems to patrol and scan designated areas for intruders using onboard sensors and obstacle avoidance software in order to carry out its mission and report back its findings to a command center.
SUV on dune-bashing through the Taklamakan desert. Keriya county-Xinjiang-China-0256 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/suv-on-dune-bashing-through-the-taklamakan-desert-keriya-county-xinjiang-china-0256-image259282921.html
RFW1RA09–SUV on dune-bashing through the Taklamakan desert. Keriya county-Xinjiang-China-0256
110713UN340-022 SAN DIEGO (July 13, 2011) Cornell University students perform surface checks on their autonomous underwater vehicle (AUV), Drakar, during practice runs as part of the 14th annual International RoboSub Competition at Space and Naval Warfare Systems Center Pacific. Cornell is the two-time defending champion of the Office of Naval Research and Association for Unmanned Vehicle Systems International (AUVSI) co-sponsored event, which challenges students to design AUVs to perform realistic missions in a simulated ocean environment. (U.S. Navy Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/110713un340-022-san-diego-july-13-2011-cornell-university-students-perform-surface-checks-on-their-autonomous-underwater-vehicle-auv-drakar-during-practice-runs-as-part-of-the-14th-annual-international-robosub-competition-at-space-and-naval-warfare-systems-center-pacific-cornell-is-the-two-time-defending-champion-of-the-office-of-naval-research-and-association-for-unmanned-vehicle-systems-international-auvsi-co-sponsored-event-which-challenges-students-to-design-auvs-to-perform-realistic-missions-in-a-simulated-ocean-environment-us-navy-image571082937.html
RM2T53235–110713UN340-022 SAN DIEGO (July 13, 2011) Cornell University students perform surface checks on their autonomous underwater vehicle (AUV), Drakar, during practice runs as part of the 14th annual International RoboSub Competition at Space and Naval Warfare Systems Center Pacific. Cornell is the two-time defending champion of the Office of Naval Research and Association for Unmanned Vehicle Systems International (AUVSI) co-sponsored event, which challenges students to design AUVs to perform realistic missions in a simulated ocean environment. (U.S. Navy
Small transport boat loaded with copra, Bougainville, Papua New Guinea Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/small-transport-boat-loaded-with-copra-bougainville-papua-new-guinea-image398911619.html
RF2E4YYRF–Small transport boat loaded with copra, Bougainville, Papua New Guinea
110720ZZ999-038 FORT MONROE, Va. (July 20, 2011) A common unmanned surface vehicle patrols for intruders during Trident Warrior 2011. The experimental boat can operate autonomously or by remote. The Trident Warrior experiment, directed by U.S. Fleet Forces Command, temporarily deploys advanced capabilities on ships to collect real-world data and feedback during an underway experimentation period. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/110720zz999-038-fort-monroe-va-july-20-2011-a-common-unmanned-surface-vehicle-patrols-for-intruders-during-trident-warrior-2011-the-experimental-boat-can-operate-autonomously-or-by-remote-the-trident-warrior-experiment-directed-by-us-fleet-forces-command-temporarily-deploys-advanced-capabilities-on-ships-to-collect-real-world-data-and-feedback-during-an-underway-experimentation-period-image571084590.html
RM2T53466–110720ZZ999-038 FORT MONROE, Va. (July 20, 2011) A common unmanned surface vehicle patrols for intruders during Trident Warrior 2011. The experimental boat can operate autonomously or by remote. The Trident Warrior experiment, directed by U.S. Fleet Forces Command, temporarily deploys advanced capabilities on ships to collect real-world data and feedback during an underway experimentation period.
iXblue DriX unmanned surface vessel doing demonstration runs in London's Royal Docks as part of the Oceanology International 2018 exhibition Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-ixblue-drix-unmanned-surface-vessel-doing-demonstration-runs-in-londons-177395267.html
RMM8H1D7–iXblue DriX unmanned surface vessel doing demonstration runs in London's Royal Docks as part of the Oceanology International 2018 exhibition
San Diego, United States of America. 28 September, 2022. U.S. Secretary of Defense Lloyd J. Austin III, greets Navy Lt. Andrew Couillard, left, after touring an Unmanned Surface Vehicle Sea Hunter during a visit to Naval Station Point Loma, September 28, 2022 in San Diego, California. Credit: Chad J. McNeeley/DOD/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/san-diego-united-states-of-america-28-september-2022-us-secretary-of-defense-lloyd-j-austin-iii-greets-navy-lt-andrew-couillard-left-after-touring-an-unmanned-surface-vehicle-sea-hunter-during-a-visit-to-naval-station-point-loma-september-28-2022-in-san-diego-california-credit-chad-j-mcneeleydodalamy-live-news-image484714864.html
RM2K4GJN4–San Diego, United States of America. 28 September, 2022. U.S. Secretary of Defense Lloyd J. Austin III, greets Navy Lt. Andrew Couillard, left, after touring an Unmanned Surface Vehicle Sea Hunter during a visit to Naval Station Point Loma, September 28, 2022 in San Diego, California. Credit: Chad J. McNeeley/DOD/Alamy Live News
Red circular Auto Pilot button with a curved surface on a white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-red-circular-auto-pilot-button-with-a-curved-surface-on-a-white-background-82750701.html
RFEPHHA5–Red circular Auto Pilot button with a curved surface on a white background
Pacific Ocean, United States. 15 September, 2023. The U.S Navy unmanned surface vessel USV Ranger sails in an autonomous transit during Integrated Battle Problem 23.2, September 16, 2023 on the Pacific Ocean. The Pacific Fleet exercise is to test, develop and evaluate the integration of unmanned platforms into fleet operations. Credit: MC2 Jesse Monford/US Army/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/pacific-ocean-united-states-15-september-2023-the-us-navy-unmanned-surface-vessel-usv-ranger-sails-in-an-autonomous-transit-during-integrated-battle-problem-232-september-16-2023-on-the-pacific-ocean-the-pacific-fleet-exercise-is-to-test-develop-and-evaluate-the-integration-of-unmanned-platforms-into-fleet-operations-credit-mc2-jesse-monfordus-armyalamy-live-news-image566663663.html
RM2RWWN7Y–Pacific Ocean, United States. 15 September, 2023. The U.S Navy unmanned surface vessel USV Ranger sails in an autonomous transit during Integrated Battle Problem 23.2, September 16, 2023 on the Pacific Ocean. The Pacific Fleet exercise is to test, develop and evaluate the integration of unmanned platforms into fleet operations. Credit: MC2 Jesse Monford/US Army/Alamy Live News
Hamburg, Germany. 20th Aug, 2019. An autonomous surface vehicle (front) of the type 'C-Worker 5 - Hydrographic Survey ASV' is on its way during a demonstration run in the port of Hamburg. On Tuesday, the Hamburg Port Authority HPA presented two autonomous vehicles for water measurement. During the demonstration the boats were remote controlled by an operator in a harbour basin. Credit: Christian Charisius/dpa/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/hamburg-germany-20th-aug-2019-an-autonomous-surface-vehicle-front-of-the-type-c-worker-5-hydrographic-survey-asv-is-on-its-way-during-a-demonstration-run-in-the-port-of-hamburg-on-tuesday-the-hamburg-port-authority-hpa-presented-two-autonomous-vehicles-for-water-measurement-during-the-demonstration-the-boats-were-remote-controlled-by-an-operator-in-a-harbour-basin-credit-christian-charisiusdpaalamy-live-news-image264641279.html
RMWAFCJ7–Hamburg, Germany. 20th Aug, 2019. An autonomous surface vehicle (front) of the type 'C-Worker 5 - Hydrographic Survey ASV' is on its way during a demonstration run in the port of Hamburg. On Tuesday, the Hamburg Port Authority HPA presented two autonomous vehicles for water measurement. During the demonstration the boats were remote controlled by an operator in a harbour basin. Credit: Christian Charisius/dpa/Alamy Live News
Mansarovar lake scenery of Ali Region in Tibet Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-image-mansarovar-lake-scenery-of-ali-region-in-tibet-169486185.html
RFKRMNA1–Mansarovar lake scenery of Ali Region in Tibet
The Seahorse-class Autonomous Underwater Vehicle is moved into position. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-the-seahorse-class-autonomous-underwater-vehicle-is-moved-into-position-130442948.html
RFHG658M–The Seahorse-class Autonomous Underwater Vehicle is moved into position.
150710-N-PO203-123 VIRGINIA BEACH, Virginia (July 10, 2015) A student from the University of Ulsan in South Korea, awaits word from his team to release their autonomous surface vehicle during a practice run prior to the start of the 2015 AUVSI Foundation and Office of Naval Research-sponsored RoboBoat competition held in Virginia Beach, Virginia. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-123 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-150710-n-po203-123-virginia-beach-virginia-july-10-2015-a-student-129977120.html
RMHFCY40–150710-N-PO203-123 VIRGINIA BEACH, Virginia (July 10, 2015) A student from the University of Ulsan in South Korea, awaits word from his team to release their autonomous surface vehicle during a practice run prior to the start of the 2015 AUVSI Foundation and Office of Naval Research-sponsored RoboBoat competition held in Virginia Beach, Virginia. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-123
White electric SUV on geometric hard surface ground. 3D rendering image. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/white-electric-suv-on-geometric-hard-surface-ground-3d-rendering-image-image177722409.html
RFM93XMW–White electric SUV on geometric hard surface ground. 3D rendering image.
Space Banner with Moon Rover Exploring Surface Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/space-banner-with-moon-rover-exploring-surface-image476816940.html
RF2JKMTTC–Space Banner with Moon Rover Exploring Surface
Metallic red color sedan on kaleidoscope style background. 3D rendering image. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-metallic-red-color-sedan-on-kaleidoscope-style-background-3d-rendering-137771069.html
RFJ040B9–Metallic red color sedan on kaleidoscope style background. 3D rendering image.
Engineers from the Naval Information Center and U.S. Marines analyze the Wave Glider at Marine Corps Air Station Camp Pendleton, California, March 9, 2022. The Wave Glider is an unmanned surface vehicle with persistent autonomous sensors that receive and send data providing increased maritime dominance in support of Expeditionary Advanced Base Operations. Air deployment of Wave Gliders drastically reduces transit time to deployment location. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/engineers-from-the-naval-information-center-and-us-marines-analyze-the-wave-glider-at-marine-corps-air-station-camp-pendleton-california-march-9-2022-the-wave-glider-is-an-unmanned-surface-vehicle-with-persistent-autonomous-sensors-that-receive-and-send-data-providing-increased-maritime-dominance-in-support-of-expeditionary-advanced-base-operations-air-deployment-of-wave-gliders-drastically-reduces-transit-time-to-deployment-location-image502501473.html
RM2M5EWN5–Engineers from the Naval Information Center and U.S. Marines analyze the Wave Glider at Marine Corps Air Station Camp Pendleton, California, March 9, 2022. The Wave Glider is an unmanned surface vehicle with persistent autonomous sensors that receive and send data providing increased maritime dominance in support of Expeditionary Advanced Base Operations. Air deployment of Wave Gliders drastically reduces transit time to deployment location.
cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture of automotive parts Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/cracks-and-damaged-rubber-of-the-car-steering-wheel-due-to-long-exposure-to-the-sunlight-substandard-materials-in-the-manufacture-of-automotive-parts-image547676576.html
RF2PR0R1M–cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture of automotive parts
Surface of Mars planet with Saturn planet . Elements of this image furnished by NASA. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/surface-of-mars-planet-with-saturn-planet-elements-of-this-image-furnished-by-nasa-image573659591.html
RF2T98CJF–Surface of Mars planet with Saturn planet . Elements of this image furnished by NASA.
SUV on dune-bashing through the Taklamakan desert. Keriya county-Xinjiang-China-0258 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/suv-on-dune-bashing-through-the-taklamakan-desert-keriya-county-xinjiang-china-0258-image259282970.html
RFW1RA22–SUV on dune-bashing through the Taklamakan desert. Keriya county-Xinjiang-China-0258
Mars rover on red planet surface explore alien landscape. Robotic autonomous vehicle for space discovery and scientific research with huge wheels, antenna and solar panel, cartoon vector illustration Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/mars-rover-on-red-planet-surface-explore-alien-landscape-robotic-autonomous-vehicle-for-space-discovery-and-scientific-research-with-huge-wheels-antenna-and-solar-panel-cartoon-vector-illustration-image366360862.html
RF2C8150E–Mars rover on red planet surface explore alien landscape. Robotic autonomous vehicle for space discovery and scientific research with huge wheels, antenna and solar panel, cartoon vector illustration
Mars rover with camera, wheels, antenna and hand manipulator. Robotic space autonomous vehicles for planet exploration and cosmic colonization. Aerona Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-mars-rover-with-camera-wheels-antenna-and-hand-manipulator-robotic-176309535.html
RFM6RGH3–Mars rover with camera, wheels, antenna and hand manipulator. Robotic space autonomous vehicles for planet exploration and cosmic colonization. Aerona
110720ZZ999-007 FORT MONROE, Va. (July 20, 2011) A common unmanned surface vehicle patrols for intruders during Trident Warrior 2011. The experimental boat can operate autonomously or by remote. The Trident Warrior experiment, directed by U.S. Fleet Forces Command, temporarily deploys advanced capabilities on ships to collect real-world data and feedback during an underway experimentation period. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/110720zz999-007-fort-monroe-va-july-20-2011-a-common-unmanned-surface-vehicle-patrols-for-intruders-during-trident-warrior-2011-the-experimental-boat-can-operate-autonomously-or-by-remote-the-trident-warrior-experiment-directed-by-us-fleet-forces-command-temporarily-deploys-advanced-capabilities-on-ships-to-collect-real-world-data-and-feedback-during-an-underway-experimentation-period-image571084603.html
RM2T5346K–110720ZZ999-007 FORT MONROE, Va. (July 20, 2011) A common unmanned surface vehicle patrols for intruders during Trident Warrior 2011. The experimental boat can operate autonomously or by remote. The Trident Warrior experiment, directed by U.S. Fleet Forces Command, temporarily deploys advanced capabilities on ships to collect real-world data and feedback during an underway experimentation period.
4DOcean's SeaRobotics USV 'ASV Harry' seen operating in the Royal Victoria Dock during Oceanology International 2018 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-4doceans-searobotics-usv-asv-harry-seen-operating-in-the-royal-victoria-177371165.html
RMM8FXMD–4DOcean's SeaRobotics USV 'ASV Harry' seen operating in the Royal Victoria Dock during Oceanology International 2018
0706117676W-121 PANAMA CITY BEACH, Fla. (June 11, 2007) - Franz Hoover, Massachusetts Institute of Technology, assists the Bluefin Hovering Autonomous Underwater Vehicle (HAUV) prior to a demonstration of its capabilities for close-range hull inspection during Autonomous Underwater Vehicle (AUV) Fest 2007, hosted by the Naval Surface Warfare Center Panama City and sponsored by the Office of Naval Research. AUV Fest is the largest in-water demonstration of unmanned underwater, surface, air and ground vehicles. U.S. Navy Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/0706117676w-121-panama-city-beach-fla-june-11-2007-franz-hoover-massachusetts-institute-of-technology-assists-the-bluefin-hovering-autonomous-underwater-vehicle-hauv-prior-to-a-demonstration-of-its-capabilities-for-close-range-hull-inspection-during-autonomous-underwater-vehicle-auv-fest-2007-hosted-by-the-naval-surface-warfare-center-panama-city-and-sponsored-by-the-office-of-naval-research-auv-fest-is-the-largest-in-water-demonstration-of-unmanned-underwater-surface-air-and-ground-vehicles-us-navy-image571084593.html
RM2T53469–0706117676W-121 PANAMA CITY BEACH, Fla. (June 11, 2007) - Franz Hoover, Massachusetts Institute of Technology, assists the Bluefin Hovering Autonomous Underwater Vehicle (HAUV) prior to a demonstration of its capabilities for close-range hull inspection during Autonomous Underwater Vehicle (AUV) Fest 2007, hosted by the Naval Surface Warfare Center Panama City and sponsored by the Office of Naval Research. AUV Fest is the largest in-water demonstration of unmanned underwater, surface, air and ground vehicles. U.S. Navy
4DOcean's SeaRobotics USV 'ASV Harry' seen operating in the KGV Dock ahead of OI2018 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-4doceans-searobotics-usv-asv-harry-seen-operating-in-the-kgv-dock-176980898.html
RMM7X4XA–4DOcean's SeaRobotics USV 'ASV Harry' seen operating in the KGV Dock ahead of OI2018
Pacific Ocean, United States. 15 September, 2023. The U.S Navy unmanned surface vessel USV Ranger sails in an autonomous transit during Integrated Battle Problem 23.2, September 16, 2023 on the Pacific Ocean. The Pacific Fleet exercise is to test, develop and evaluate the integration of unmanned platforms into fleet operations. Credit: MC2 Jesse Monford/US Army/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/pacific-ocean-united-states-15-september-2023-the-us-navy-unmanned-surface-vessel-usv-ranger-sails-in-an-autonomous-transit-during-integrated-battle-problem-232-september-16-2023-on-the-pacific-ocean-the-pacific-fleet-exercise-is-to-test-develop-and-evaluate-the-integration-of-unmanned-platforms-into-fleet-operations-credit-mc2-jesse-monfordus-armyalamy-live-news-image566663786.html
RM2RWWNCA–Pacific Ocean, United States. 15 September, 2023. The U.S Navy unmanned surface vessel USV Ranger sails in an autonomous transit during Integrated Battle Problem 23.2, September 16, 2023 on the Pacific Ocean. The Pacific Fleet exercise is to test, develop and evaluate the integration of unmanned platforms into fleet operations. Credit: MC2 Jesse Monford/US Army/Alamy Live News
Hamburg, Germany. 20th Aug, 2019. An autonomous surface vehicle of the type 'C-Cat 3 - Small Multi-Purpose Work ASV' is towed by an escort ship to a pier in the port of Hamburg. On Tuesday, the Hamburg Port Authority HPA presented two autonomous vehicles for water measurement. During the demonstration the boats were remote controlled by an operator in a harbour basin. Credit: Christian Charisius/dpa/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/hamburg-germany-20th-aug-2019-an-autonomous-surface-vehicle-of-the-type-c-cat-3-small-multi-purpose-work-asv-is-towed-by-an-escort-ship-to-a-pier-in-the-port-of-hamburg-on-tuesday-the-hamburg-port-authority-hpa-presented-two-autonomous-vehicles-for-water-measurement-during-the-demonstration-the-boats-were-remote-controlled-by-an-operator-in-a-harbour-basin-credit-christian-charisiusdpaalamy-live-news-image264642022.html
RMWAFDGP–Hamburg, Germany. 20th Aug, 2019. An autonomous surface vehicle of the type 'C-Cat 3 - Small Multi-Purpose Work ASV' is towed by an escort ship to a pier in the port of Hamburg. On Tuesday, the Hamburg Port Authority HPA presented two autonomous vehicles for water measurement. During the demonstration the boats were remote controlled by an operator in a harbour basin. Credit: Christian Charisius/dpa/Alamy Live News
Sydney, Australia. 24th Oct, 2023. The U.S Navy unmanned surface vessel USV Mariner transits underneath the Sydney Harbor bridge as it passes the Sydney Opera House during a scheduled port visit, October 24, 2023 in Sydney, NSW, Australia. Credit: ESN Pierson Hawkins/US Army/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/sydney-australia-24th-oct-2023-the-us-navy-unmanned-surface-vessel-usv-mariner-transits-underneath-the-sydney-harbor-bridge-as-it-passes-the-sydney-opera-house-during-a-scheduled-port-visit-october-24-2023-in-sydney-nsw-australia-credit-esn-pierson-hawkinsus-armyalamy-live-news-image570189809.html
RM2T3JAWN–Sydney, Australia. 24th Oct, 2023. The U.S Navy unmanned surface vessel USV Mariner transits underneath the Sydney Harbor bridge as it passes the Sydney Opera House during a scheduled port visit, October 24, 2023 in Sydney, NSW, Australia. Credit: ESN Pierson Hawkins/US Army/Alamy Live News
Hamburg, Germany. 11th Mar, 2020. The first autonomous drone for surveying waters, 'echo.1', is on its way in front of the Elbphilharmonie (r) in Hafencity after a naming ceremony in Sandtorhafen harbour. The so-called Autonomous Surface Vehicle (ASV) with its electric drive can be on the road for up to six hours to further improve data on water depths in the Port of Hamburg. Credit: Christian Charisius/dpa/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/hamburg-germany-11th-mar-2020-the-first-autonomous-drone-for-surveying-waters-echo1-is-on-its-way-in-front-of-the-elbphilharmonie-r-in-hafencity-after-a-naming-ceremony-in-sandtorhafen-harbour-the-so-called-autonomous-surface-vehicle-asv-with-its-electric-drive-can-be-on-the-road-for-up-to-six-hours-to-further-improve-data-on-water-depths-in-the-port-of-hamburg-credit-christian-charisiusdpaalamy-live-news-image348329112.html
RM2B6KN9C–Hamburg, Germany. 11th Mar, 2020. The first autonomous drone for surveying waters, 'echo.1', is on its way in front of the Elbphilharmonie (r) in Hafencity after a naming ceremony in Sandtorhafen harbour. The so-called Autonomous Surface Vehicle (ASV) with its electric drive can be on the road for up to six hours to further improve data on water depths in the Port of Hamburg. Credit: Christian Charisius/dpa/Alamy Live News
150710-N-PO203-037 VIRGINIA BEACH, Virginia (July 10, 2015) An autonomous surface vehicle (AUV) from the University of Central Florida maneuvers through a practice run for the 2015 International RoboBoat Competition held in Virginia Beach, Virginia. During the event, sponsored by the AUVSI Foundation and Office of Naval Research, student teams race ASVs of their own design through an aquatic obstacle course. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-037 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-150710-n-po203-037-virginia-beach-virginia-july-10-2015-an-autonomous-129977119.html
RMHFCY3Y–150710-N-PO203-037 VIRGINIA BEACH, Virginia (July 10, 2015) An autonomous surface vehicle (AUV) from the University of Central Florida maneuvers through a practice run for the 2015 International RoboBoat Competition held in Virginia Beach, Virginia. During the event, sponsored by the AUVSI Foundation and Office of Naval Research, student teams race ASVs of their own design through an aquatic obstacle course. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-037
Russian Mars Exploration Program. Planetary rover with Mars and Russian flag. 3D rendering isolated on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/russian-mars-exploration-program-planetary-rover-with-mars-and-russian-flag-3d-rendering-isolated-on-white-background-image566178819.html
RF2RW3JT3–Russian Mars Exploration Program. Planetary rover with Mars and Russian flag. 3D rendering isolated on white background
150711-N-PO203-059 VIRGINIA BEACH, Virginia (July 11, 2015) A student from Villanova University watches as his team's autonomous surface vehicle (ASV) leaves the dock July 11 during the 2015 International RoboBoat Competition in Virginia Beach, Virginia. During the event, sponsored by the AUVSI Foundation and Office of Naval Research, student teams race ASVs of their own design through an aquatic obstacle course. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150711-N-PO203-059 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-150711-n-po203-059-virginia-beach-virginia-july-11-2015-a-student-129977128.html
RMHFCY48–150711-N-PO203-059 VIRGINIA BEACH, Virginia (July 11, 2015) A student from Villanova University watches as his team's autonomous surface vehicle (ASV) leaves the dock July 11 during the 2015 International RoboBoat Competition in Virginia Beach, Virginia. During the event, sponsored by the AUVSI Foundation and Office of Naval Research, student teams race ASVs of their own design through an aquatic obstacle course. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150711-N-PO203-059
A hand showing the hologram of a 3D rendered futuristic autonomous car concept Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-hand-showing-the-hologram-of-a-3d-rendered-futuristic-autonomous-car-concept-image477117739.html
RF2JM6GF7–A hand showing the hologram of a 3D rendered futuristic autonomous car concept
150710-N-PO203-304 VIRGINIA BEACH, Virginia (July 10, 2015) An autonomous surface vehicle (AUV) from Temple University in Philadelphia, leaves the dock during a practice run for the 2015 International RoboBoat Competition held in Virginia Beach, Va. During the event, sponsored by the AUVSI Foundation and Office of Naval Research, student teams race ASVs of their own design through an aquatic obstacle course. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-304 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-150710-n-po203-304-virginia-beach-virginia-july-10-2015-an-autonomous-129977127.html
RMHFCY47–150710-N-PO203-304 VIRGINIA BEACH, Virginia (July 10, 2015) An autonomous surface vehicle (AUV) from Temple University in Philadelphia, leaves the dock during a practice run for the 2015 International RoboBoat Competition held in Virginia Beach, Va. During the event, sponsored by the AUVSI Foundation and Office of Naval Research, student teams race ASVs of their own design through an aquatic obstacle course. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-304
U. S. Marines and engineers with the Naval Information Warfare Center unload a Wave Glider at Marine Corps Air Station Camp Pendleton, California, March 9, 2022. The Wave Glider is an unmanned surface vehicle with persistent autonomous sensors that receive and send data providing increased maritime dominance in support of Expeditionary Advanced Base Operations. Air deployment of Wave Gliders drastically reduces transit time to deployment location. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/u-s-marines-and-engineers-with-the-naval-information-warfare-center-unload-a-wave-glider-at-marine-corps-air-station-camp-pendleton-california-march-9-2022-the-wave-glider-is-an-unmanned-surface-vehicle-with-persistent-autonomous-sensors-that-receive-and-send-data-providing-increased-maritime-dominance-in-support-of-expeditionary-advanced-base-operations-air-deployment-of-wave-gliders-drastically-reduces-transit-time-to-deployment-location-image502501455.html
RM2M5EWMF–U. S. Marines and engineers with the Naval Information Warfare Center unload a Wave Glider at Marine Corps Air Station Camp Pendleton, California, March 9, 2022. The Wave Glider is an unmanned surface vehicle with persistent autonomous sensors that receive and send data providing increased maritime dominance in support of Expeditionary Advanced Base Operations. Air deployment of Wave Gliders drastically reduces transit time to deployment location.
cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture of automotive parts Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/cracks-and-damaged-rubber-of-the-car-steering-wheel-due-to-long-exposure-to-the-sunlight-substandard-materials-in-the-manufacture-of-automotive-parts-image547669902.html
RF2PR0EFA–cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture of automotive parts
Cargo spacecraft on surface of Mars planet. Elements of this image furnished by NASA. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/cargo-spacecraft-on-surface-of-mars-planet-elements-of-this-image-furnished-by-nasa-image572306226.html
RF2T72PC2–Cargo spacecraft on surface of Mars planet. Elements of this image furnished by NASA.
SUV on dune-bashing through the Taklamakan desert. Keriya county-Xinjiang-China-0257 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/suv-on-dune-bashing-through-the-taklamakan-desert-keriya-county-xinjiang-china-0257-image259282931.html
RFW1RA0K–SUV on dune-bashing through the Taklamakan desert. Keriya county-Xinjiang-China-0257
Landing of Mars Rover on surface of red planet. Elements of this image furnished by NASA. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/landing-of-mars-rover-on-surface-of-red-planet-elements-of-this-image-furnished-by-nasa-image415794152.html
RF2F4D1K4–Landing of Mars Rover on surface of red planet. Elements of this image furnished by NASA.
Mars rover on red planet surface explore alien landscape. Robotic autonomous vehicle for space discovery and scientific research, futuristic background with glowing rocks, cartoon vector illustration Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/mars-rover-on-red-planet-surface-explore-alien-landscape-robotic-autonomous-vehicle-for-space-discovery-and-scientific-research-futuristic-background-with-glowing-rocks-cartoon-vector-illustration-image383866259.html
RF2D8EH97–Mars rover on red planet surface explore alien landscape. Robotic autonomous vehicle for space discovery and scientific research, futuristic background with glowing rocks, cartoon vector illustration
Curiosity Mars Rover exploring the surface of red planet. Elements of this image furnished by NASA. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/curiosity-mars-rover-exploring-the-surface-of-red-planet-elements-of-this-image-furnished-by-nasa-image415794110.html
RF2F4D1HJ–Curiosity Mars Rover exploring the surface of red planet. Elements of this image furnished by NASA.
Neu-Ulm, Bavaria, Germany - May 26, 2021: Close up of a Tesla car logo on metallic surface with rain drops. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/neu-ulm-bavaria-germany-may-26-2021-close-up-of-a-tesla-car-logo-on-metallic-surface-with-rain-drops-image430129392.html
RF2FYP2C0–Neu-Ulm, Bavaria, Germany - May 26, 2021: Close up of a Tesla car logo on metallic surface with rain drops.
0706117676W-166 PANAMA CITY BEACH, Fla. (June 11, 2007) - Amy Kukulya and Tom Austin, both from the Woods Hole Oceanographic Institution, prepare to launch a Remote Environmental Monitoring Units (REMUS) during Autonomous Underwater Vehicle (AUV) Fest 2007, hosted by the Naval Surface Warfare Center Panama City and sponsored by the Office of Naval Research. Capable of performing rapid environmental surveys, REMUS also functions as an underwater mine reconnaissance device for the NavyХs mine countermeasures program. AUV Fest is the largest in-water demonstration of unmanned underwater, surface, Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/0706117676w-166-panama-city-beach-fla-june-11-2007-amy-kukulya-and-tom-austin-both-from-the-woods-hole-oceanographic-institution-prepare-to-launch-a-remote-environmental-monitoring-units-remus-during-autonomous-underwater-vehicle-auv-fest-2007-hosted-by-the-naval-surface-warfare-center-panama-city-and-sponsored-by-the-office-of-naval-research-capable-of-performing-rapid-environmental-surveys-remus-also-functions-as-an-underwater-mine-reconnaissance-device-for-the-navys-mine-countermeasures-program-auv-fest-is-the-largest-in-water-demonstration-of-unmanned-underwater-surface-image571084582.html
RM2T5345X–0706117676W-166 PANAMA CITY BEACH, Fla. (June 11, 2007) - Amy Kukulya and Tom Austin, both from the Woods Hole Oceanographic Institution, prepare to launch a Remote Environmental Monitoring Units (REMUS) during Autonomous Underwater Vehicle (AUV) Fest 2007, hosted by the Naval Surface Warfare Center Panama City and sponsored by the Office of Naval Research. Capable of performing rapid environmental surveys, REMUS also functions as an underwater mine reconnaissance device for the NavyХs mine countermeasures program. AUV Fest is the largest in-water demonstration of unmanned underwater, surface,
4DOcean's SeaRobotics USV 'ASV Harry' seen operating in the KGV Dock ahead of OI2018 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-4doceans-searobotics-usv-asv-harry-seen-operating-in-the-kgv-dock-176980885.html
RMM7X4WW–4DOcean's SeaRobotics USV 'ASV Harry' seen operating in the KGV Dock ahead of OI2018
MOSCOW RUSSIA NOVEMBER 8: Museum Soviet space exploration Apparatus study Moon November 8 2009 in Moscow Russia. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-moscow-russia-november-8-museum-soviet-space-exploration-apparatus-43745139.html
RFCF4NAB–MOSCOW RUSSIA NOVEMBER 8: Museum Soviet space exploration Apparatus study Moon November 8 2009 in Moscow Russia.
Types of diving modes an equipments. Illustration depicts the many types of diving suits, tools, methods, vehicles, and underwater diver technology. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/types-of-diving-modes-an-equipments-illustration-depicts-the-many-types-of-diving-suits-tools-methods-vehicles-and-underwater-diver-technology-image214762827.html
RFPDB84Y–Types of diving modes an equipments. Illustration depicts the many types of diving suits, tools, methods, vehicles, and underwater diver technology.
Sydney, Australia. 24th Oct, 2023. The U.S Navy unmanned surface vessel USV Ranger transits underneath the Sydney Harbor bridge as it passes the Sydney Opera House during a scheduled port visit, October 24, 2023 in Sydney, NSW, Australia. Credit: ESN Pierson Hawkins/US Army/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/sydney-australia-24th-oct-2023-the-us-navy-unmanned-surface-vessel-usv-ranger-transits-underneath-the-sydney-harbor-bridge-as-it-passes-the-sydney-opera-house-during-a-scheduled-port-visit-october-24-2023-in-sydney-nsw-australia-credit-esn-pierson-hawkinsus-armyalamy-live-news-image570189805.html
RM2T3JAWH–Sydney, Australia. 24th Oct, 2023. The U.S Navy unmanned surface vessel USV Ranger transits underneath the Sydney Harbor bridge as it passes the Sydney Opera House during a scheduled port visit, October 24, 2023 in Sydney, NSW, Australia. Credit: ESN Pierson Hawkins/US Army/Alamy Live News
Hamburg, Germany. 11th Mar, 2020. The first autonomous drone for surveying waters, 'echo.1', is on its way in front of the Elbphilharmonie Concert Hall in Hafencity after a naming ceremony in Sandtorhafen harbour. The so-called Autonomous Surface Vehicle (ASV) with its electric drive can be on the road for up to six hours to further improve data on water depths in the Port of Hamburg. Credit: Christian Charisius/dpa/Alamy Live News Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/hamburg-germany-11th-mar-2020-the-first-autonomous-drone-for-surveying-waters-echo1-is-on-its-way-in-front-of-the-elbphilharmonie-concert-hall-in-hafencity-after-a-naming-ceremony-in-sandtorhafen-harbour-the-so-called-autonomous-surface-vehicle-asv-with-its-electric-drive-can-be-on-the-road-for-up-to-six-hours-to-further-improve-data-on-water-depths-in-the-port-of-hamburg-credit-christian-charisiusdpaalamy-live-news-image348324897.html
RM2B6KFXW–Hamburg, Germany. 11th Mar, 2020. The first autonomous drone for surveying waters, 'echo.1', is on its way in front of the Elbphilharmonie Concert Hall in Hafencity after a naming ceremony in Sandtorhafen harbour. The so-called Autonomous Surface Vehicle (ASV) with its electric drive can be on the road for up to six hours to further improve data on water depths in the Port of Hamburg. Credit: Christian Charisius/dpa/Alamy Live News
Space rover on blue background. Space exploration concept. Cartoon style. Mars on Lunar explorer with camera and communication equipment. Vector Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/space-rover-on-blue-background-space-exploration-concept-cartoon-style-mars-on-lunar-explorer-with-camera-and-communication-equipment-vector-image503259726.html
RF2M6NCWJ–Space rover on blue background. Space exploration concept. Cartoon style. Mars on Lunar explorer with camera and communication equipment. Vector
The USA Mars Exploration Program. Planetary rover with Mars and American flag. 3D rendering isolated on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-usa-mars-exploration-program-planetary-rover-with-mars-and-american-flag-3d-rendering-isolated-on-white-background-image564424679.html
RF2RP7NC7–The USA Mars Exploration Program. Planetary rover with Mars and American flag. 3D rendering isolated on white background
Moon Rover Robotic Explorer Space Circle Icon Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/moon-rover-robotic-explorer-space-circle-icon-image474820202.html
RF2JGDX0A–Moon Rover Robotic Explorer Space Circle Icon
Mars rover on red planet surface explore alien landscape. Robotic autonomous vehicle for space discovery and scientific research, futuristic backgroun Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/mars-rover-on-red-planet-surface-explore-alien-landscape-robotic-autonomous-vehicle-for-space-discovery-and-scientific-research-futuristic-backgroun-image466496412.html
RF2J2XMX4–Mars rover on red planet surface explore alien landscape. Robotic autonomous vehicle for space discovery and scientific research, futuristic backgroun
150710-N-PO203-025 VIRGINIA BEACH, Virginia (July 10, 2015) Students from the University of Michigan prepare to launch their autonomous surface vehicle (ASV) for a practice run prior to the start of the 2015 AUVSI Foundation and Office of Naval Research-sponsored international RoboBoat competition held in Virginia Beach, Va. During the competition student teams race the ASVs of their own design through an aquatic obstacle course. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-025 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-150710-n-po203-025-virginia-beach-virginia-july-10-2015-students-from-129977117.html
RMHFCY3W–150710-N-PO203-025 VIRGINIA BEACH, Virginia (July 10, 2015) Students from the University of Michigan prepare to launch their autonomous surface vehicle (ASV) for a practice run prior to the start of the 2015 AUVSI Foundation and Office of Naval Research-sponsored international RoboBoat competition held in Virginia Beach, Va. During the competition student teams race the ASVs of their own design through an aquatic obstacle course. (U.S. Navy photo by John F. Williams/Released) RoboBoat 150710-N-PO203-025
Engineers from the Naval Information Warfare Center instruct U.S. Marines on how the Wave Glider operates at Marine Corps Air Station Camp Pendleton, California, March 9, 2022. The Wave Glider is an unmanned surface vehicle with persistent autonomous sensors that receive and send data providing increased maritime dominance in support of Expeditionary Advanced Base Operations. Air deployment of Wave Gliders drastically reduces transit time to deployment location. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/engineers-from-the-naval-information-warfare-center-instruct-us-marines-on-how-the-wave-glider-operates-at-marine-corps-air-station-camp-pendleton-california-march-9-2022-the-wave-glider-is-an-unmanned-surface-vehicle-with-persistent-autonomous-sensors-that-receive-and-send-data-providing-increased-maritime-dominance-in-support-of-expeditionary-advanced-base-operations-air-deployment-of-wave-gliders-drastically-reduces-transit-time-to-deployment-location-image502501446.html
RM2M5EWM6–Engineers from the Naval Information Warfare Center instruct U.S. Marines on how the Wave Glider operates at Marine Corps Air Station Camp Pendleton, California, March 9, 2022. The Wave Glider is an unmanned surface vehicle with persistent autonomous sensors that receive and send data providing increased maritime dominance in support of Expeditionary Advanced Base Operations. Air deployment of Wave Gliders drastically reduces transit time to deployment location.
cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture of automotive parts Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/cracks-and-damaged-rubber-of-the-car-steering-wheel-due-to-long-exposure-to-the-sunlight-substandard-materials-in-the-manufacture-of-automotive-parts-image547684817.html
RF2PR15G1–cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture of automotive parts
Closeup of a 3D rendering of autonomous driving with an electric car on a man's hand Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/closeup-of-a-3d-rendering-of-autonomous-driving-with-an-electric-car-on-a-mans-hand-image440633952.html
RF2GGTH2T–Closeup of a 3D rendering of autonomous driving with an electric car on a man's hand
Unstucking a green off-road car stuck in sand-Taklamakan desert-Keriya county-Xinjiang-China-0255 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/unstucking-a-green-off-road-car-stuck-in-sand-taklamakan-desert-keriya-county-xinjiang-china-0255-image258892233.html
RFW15FK5–Unstucking a green off-road car stuck in sand-Taklamakan desert-Keriya county-Xinjiang-China-0255
Selective focus of cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/selective-focus-of-cracks-and-damaged-rubber-of-the-car-steering-wheel-due-to-long-exposure-to-the-sunlight-substandard-materials-in-the-manufacture-image478481236.html
RF2JPCKKG–Selective focus of cracks and damaged rubber of the car steering wheel due to long exposure to the sunlight, substandard materials in the manufacture
Planet colonization vector flat illustration. Mars rovers, solar panels, rockets and robots on planet surface making scientific researches. Robotic autonomous vehicles for space discovery. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/planet-colonization-vector-flat-illustration-mars-rovers-solar-panels-rockets-and-robots-on-planet-surface-making-scientific-researches-robotic-autonomous-vehicles-for-space-discovery-image433140979.html
RF2G4K7MK–Planet colonization vector flat illustration. Mars rovers, solar panels, rockets and robots on planet surface making scientific researches. Robotic autonomous vehicles for space discovery.
Curiosity Mars Rover exploring the surface of red planet. Elements of this image furnished by NASA. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/curiosity-mars-rover-exploring-the-surface-of-red-planet-elements-of-this-image-furnished-by-nasa-image416350054.html
RF2F5AAMP–Curiosity Mars Rover exploring the surface of red planet. Elements of this image furnished by NASA.
A meticulously engineered, solar-powered robotic rover maneuvers across a barren, rocky terrain that closely resembles the Martian surface, embodying Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-meticulously-engineered-solar-powered-robotic-rover-maneuvers-across-a-barren-rocky-terrain-that-closely-resembles-the-martian-surface-embodying-image574877817.html
RF2TB7XEH–A meticulously engineered, solar-powered robotic rover maneuvers across a barren, rocky terrain that closely resembles the Martian surface, embodying
Remote Environmental Monitoring Units (REMUS) with an autonomous docking station from Woods Hole Oceanographic Institution (WHOI) is lowered into the water pierside during the Autonomous Underwater Vehicle (AUV) Fest 2007, hosted by the Naval Surface Warfare Center Panama City and sponsored by the Office of Naval Research. AUV Fest is the largest in-water demonstration of unmanned underwater, surface, air and ground vehicles. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/remote-environmental-monitoring-units-remus-with-an-autonomous-docking-station-from-woods-hole-oceanographic-institution-whoi-is-lowered-into-the-water-pierside-during-the-autonomous-underwater-vehicle-auv-fest-2007-hosted-by-the-naval-surface-warfare-center-panama-city-and-sponsored-by-the-office-of-naval-research-auv-fest-is-the-largest-in-water-demonstration-of-unmanned-underwater-surface-air-and-ground-vehicles-image235135822.html
RMRJFA3X–Remote Environmental Monitoring Units (REMUS) with an autonomous docking station from Woods Hole Oceanographic Institution (WHOI) is lowered into the water pierside during the Autonomous Underwater Vehicle (AUV) Fest 2007, hosted by the Naval Surface Warfare Center Panama City and sponsored by the Office of Naval Research. AUV Fest is the largest in-water demonstration of unmanned underwater, surface, air and ground vehicles.
4DOcean's SeaRobotics USV 'ASV Harry' seen operating in the KGV Dock ahead of OI2018 Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-4doceans-searobotics-usv-asv-harry-seen-operating-in-the-kgv-dock-176980857.html
RMM7X4TW–4DOcean's SeaRobotics USV 'ASV Harry' seen operating in the KGV Dock ahead of OI2018
HONOLULU, Hawaii (Dec. 14, 2018) Owltonomous, an autonomous surface vehicle from Florida Atlantic University, competes during the Office of Naval Research (ONR)-sponsored Maritime RobotX Challenge in Honolulu, Hawaii. Organized by RoboNation and Navatek, RobotX is designed to foster student interest in autonomous robotic systems operating in the maritime domain, with an emphasis on the science and engineering of cooperative autonomy. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/honolulu-hawaii-dec-14-2018-owltonomous-an-autonomous-surface-vehicle-from-florida-atlantic-university-competes-during-the-office-of-naval-research-onr-sponsored-maritime-robotx-challenge-in-honolulu-hawaii-organized-by-robonation-and-navatek-robotx-is-designed-to-foster-student-interest-in-autonomous-robotic-systems-operating-in-the-maritime-domain-with-an-emphasis-on-the-science-and-engineering-of-cooperative-autonomy-image230205178.html
RMRAEN1E–HONOLULU, Hawaii (Dec. 14, 2018) Owltonomous, an autonomous surface vehicle from Florida Atlantic University, competes during the Office of Naval Research (ONR)-sponsored Maritime RobotX Challenge in Honolulu, Hawaii. Organized by RoboNation and Navatek, RobotX is designed to foster student interest in autonomous robotic systems operating in the maritime domain, with an emphasis on the science and engineering of cooperative autonomy.
Download Confirmation
Please complete the form below. The information provided will be included in your download confirmation