 |
|
Monitoring Baleen Whales with Autonomous Underwater Vehicles
February 22, 2006Like robots of the deep, autonomous underwater vehicles, or AUVs, are growing in number and use in the oceans to perform scientific missions ranging from monitoring climate change to mapping the deep sea floor and surveying ancient shipwrecks. Another use for these versatile platforms has now been found: monitoring the lives of whales.
Marine mammals are major predators in the ocean, but little is known about many of them and how changing ocean conditions affect their distribution. Traditional ship or aerial surveys rely on human observers to detect marine mammals, but these observations are limited to daylight hours and periods of calm seas and good visibility. As a result, these surveys are time-consuming, inefficient, and expensive. Marine mammals can also be detected by passively listening for their vocalizations. Passive acoustic monitoring of marine mammals is unaffected by weather, but most applications to date have involved moored or fixed recorders that can assess only when marine mammals appear in a single location.
Scientists at the Woods Hole Oceanographic Institution (WHOI) have reported the first use of passive acoustic recorders in an ocean glider, a type of AUV that looks like a large model airplane and can work in water depths to 1,000 meters (about 3,300 feet) or more.
Gliders move both horizontally and vertically in the ocean and work around the clock in all weather conditions, typically up to a month or longer depending on the project. The vehicle carries a variety of high-resolution sensors to collect oceanographic measurements such as temperature, salinity, and fluorescence (a measure of phytoplankton abundance). Gliders also operate silently, which make them ideal for passive acoustics studies. Researchers say the gliders are a promising, cost-effective, and efficient alternative to long-term ship-based studies given ship costs in the thousands of dollars a day.
Mark Baumgartner, an assistant scientist in the WHOI Biology Department, reported findings from a pilot study involving the deployment of recorder-equipped gliders today at the biennial Ocean Sciences Meeting in Honolulu, Hawaii. Baumgartner said vocalizations of baleen whales, including right, sei, and humpback whales, could be heard on all of the glider recorders during the five-day project conducted in 2005 off the coast of Cape Cod, Massachusetts.
The WHOI team custom built digital audio recorders, installed them inside the gliders, and then deployed the gliders near an aggregation of right and sei whales. A gale moved through the area just after the gliders were deployed bringing high winds and 17 foot seas that made traditional ship-based marine mammal observations impossible. In contrast, Baumgartner said the gliders operated "flawlessly", collecting data continuously through the gale.
Baumgartner and colleagues have found a close correspondence between changes in the rate of sei whale calls and changes in the near-surface abundance of copepods, the sei whale's primary prey. The copepods, a tiny shrimp-like animal, were observed with an echosounder on the glider. According to the scientists, the changes in abundance were a result of the copepods' daily migration from the surface to the bottom at dawn and from the bottom to the surface at dusk.
"We speculate that sei whales only feed on the copepods at night when the copepods are near the surface," he said at a news conference on new platforms for ocean measurements. "During the day, when the copepods are near the sea floor, sei whales vocalize more while socializing or feeding on other prey."
Baumgartner said the long-term goal is to study where marine mammals go and what they do over time scales of weeks to months using unmanned survey vehicles like gliders that are capable of collecting both acoustic recordings and oceanographic measurements. "Our five-day pilot project clearly demonstrated that gliders can be used to collect high quality acoustic measurements. We are now working to extend the capabilities of the acoustic system to investigate baleen whale habitat in ways that have not been possible until now." The scientists are currently focusing on baleen whales because they are endangered and at particular risk from fishing gear entanglements and ship strikes.
Future work will focus on extending the duration of the recordings, developing a capability to report detections of whale vocalizations to land-based researchers in real time, and monitoring the high-frequency vocalizations of other marine mammals, such as dolphins, sperm whales, and beaked whales.
Funding for this pilot project was provided by the WHOI Ocean Life Institute and the U.S. Office of Naval Research.
Woods Hole Oceanographic Institution
Mark Baumgartner, an assistant scientist in the WHOI Biology Department, reported findings from a pilot study involving the deployment of recorder-equipped gliders today at the biennial Ocean Sciences Meeting in Honolulu, Hawaii. Baumgartner said vocalizations of baleen whales, including right, sei, and humpback whales, could be heard on all of the glider recorders during the five-day project conducted in 2005 off the coast of Cape Cod, Massachusetts.
The WHOI team custom built digital audio recorders, installed them inside the gliders, and then deployed the gliders near an aggregation of right and sei whales. A gale moved through the area just after the gliders were deployed bringing high winds and 17 foot seas that made traditional ship-based marine mammal observations impossible. In contrast, Baumgartner said the gliders operated "flawlessly", collecting data continuously through the gale.
Baumgartner and colleagues have found a close correspondence between changes in the rate of sei whale calls and changes in the near-surface abundance of copepods, the sei whale's primary prey. The copepods, a tiny shrimp-like animal, were observed with an echosounder on the glider. According to the scientists, the changes in abundance were a result of the copepods' daily migration from the surface to the bottom at dawn and from the bottom to the surface at dusk.
"We speculate that sei whales only feed on the copepods at night when the copepods are near the surface," he said at a news conference on new platforms for ocean measurements. "During the day, when the copepods are near the sea floor, sei whales vocalize more while socializing or feeding on other prey."
Baumgartner said the long-term goal is to study where marine mammals go and what they do over time scales of weeks to months using unmanned survey vehicles like gliders that are capable of collecting both acoustic recordings and oceanographic measurements. "Our five-day pilot project clearly demonstrated that gliders can be used to collect high quality acoustic measurements. We are now working to extend the capabilities of the acoustic system to investigate baleen whale habitat in ways that have not been possible until now." The scientists are currently focusing on baleen whales because they are endangered and at particular risk from fishing gear entanglements and ship strikes.
Future work will focus on extending the duration of the recordings, developing a capability to report detections of whale vocalizations to land-based researchers in real time, and monitoring the high-frequency vocalizations of other marine mammals, such as dolphins, sperm whales, and beaked whales.
Funding for this pilot project was provided by the WHOI Ocean Life Institute and the U.S. Office of Naval Research.
Woods Hole Oceanographic Institution
Autonomous Underwater Vehicles Current Events and Autonomous Underwater Vehicles News RSSNew robot scouts best locations for components of undersea lab
Like a deep-sea bloodhound, Sentry - the newest in an elite group of unmanned submersibles able to operate on their own in demanding and rugged environments - has helped scientists pinpoint optimal locations for two observation sites of a pioneering seafloor laboratory being planned off Washington and Oregon.
MIT team building robotic fin for submarines
Inspired by the efficient swimming motion of the bluegill sunfish, MIT researchers are building a mechanical fin that could one day propel robotic submarines.
Explorers to Use New Robotic Vehicles to Hunt for Life and Hydrothermal Vents on Arctic Seafloor
Scientists and engineers from the Woods Hole Oceanographic Institution (WHOI) have just completed a successful test of new robotic vehicles designed for use beneath the ice of the Arctic Ocean.
New research shows sharks use their noses and bodies to locate smells
Sharks are known to have a keen sense of smell, which in many species is critical for finding food. However, according to new research from Boston University marine biologists, sharks can not use just their noses to locate prey; they also need their skin - specifically a location called the lateral line.
NASA mission explores world's deepest sinkhole
A NASA-funded expedition, including researchers from Carnegie Mellon University's Robotics Institute, will begin searching for the submerged bottom of Mexico's El Zacatón sinkhole with a robotic submarine the week of May 14.
NASA's robotic sub readies for dive into Earth's deepest sinkhole
An underwater robot, shaped like a flattened orange, maneuvered untethered and autonomously within a 115-meter-deep sinkhole during tests this month in Mexico, a prelude to its mission to probe the mysterious nether reaches of the world's deepest sinkhole.
Undersea Vehicles to Study Formation of Gold and Other Precious Metals On the Pacific Ocean Floor
An international team of scientists will explore the seafloor near Papua New Guinea in the western Pacific Ocean later this month with remotely operated and autonomous underwater vehicles, investigating active and inactive hydrothermal vents and the formation of mineral deposits containing copper, gold and other commercially valuable minerals.
Rensselaer Researcher To Showcase New Solar Underwater Robot Technology at Exhibition on State-of-the-Art U.S. Robotic Vehicles
A new solar-powered underwater robot technology developed for undersea observation and water monitoring will be showcased at a Sept. 16 workshop on leading-edge robotics to be held at the National Science Foundation (NSF) in Arlington, Va.
Fishy sixth sense could help robots navigate the oceans
Taking their cue from fish, scientists in the US have built a navigational aid that will help robots and remote sensors find their way around the world`s vast oceans. The team describes its research today in the Institute of Physics publication Journal of Micromechanics and Microengineering. Fish and many amphibian animals find their way through even the murkiest of waters, navigate raging torrents and spot obstacles, predators and prey using a sensory organ known as the lateral line system. Sometimes known as the fish`s sixth sense, the lateral line is a system of thousands of tiny hair cells that run the length of the fish`s body. The lateral line responds to fluid flow around the fish and
More Autonomous Underwater Vehicles Current Events and Autonomous Underwater Vehicles News Articles
 |
Technology and Applications of Autonomous Underwater Vehicles (Ocean Science and Technology, V. 2) by Gwyn Griffiths (Editor) The oceans are hostile. Gathering information on life, the seabed, indeed any topic, is incredibly difficult. Autonomous Under Vehicles are robots that are revolutionising the way researchers and industry obtain data. Advances in technology have resulted in capable vehicles that have made new discoveries on how oceans work and have dramactically reduced the cost to industry of surveying the seabed. This book describes the technologies that have made this happen and a host of applications from fish abundance studies to finding diamonds beneath the sea. It is essential reading for those wanting to make the best use of autonomous vehicles. |
 |
Autopilot Using Differential Thrust for ARIES Autonomous Underwater Vehicle by Christopher J. Sarton (Author) This is a NAVAL POSTGRADUATE SCHOOL MONTEREY CA DEPT OF MECHANICAL ENGINEERING report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A455714. The abstract provided by the Pentagon follows: Future underwater missions will require data transmission via satellite, In particular, the Office of Naval Research (ONR) is interested in experimenting with communications using the GOES satellite system, which is government owned. Unfortunately, communication antennas must point to specific satellites in this system and thus underwater vehicles must steer a specific course on the surface... |
|
|
Phoenix Autonomous Underwater Vehicle Recovery Software Reference by Don Brutzman (Author), Duane Davis (Author), Robert McGhee (Author) This is a NAVAL POSTGRADUATE SCHOOL MONTEREY CA report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A201713. The abstract provided by the Pentagon follows: Because of range limitations imposed by speed and power supplies convert launch and recovery of Autonomous Underwater Vehicles (AUVs) near the operating area will be required for their use in many military applications. This report contains source code implemented on the Phoenix AUV in support of recovery in a small stationary tube. Implementation involves the development of low-level behaviors for sonar and vehicle control,... |
|
|
NPS AUV Workbench: Collaborative Environment for Autonomous Underwater Vehicles (AUV) Mission Planning and 3D Visualization by Chim S. Lee (Author) This is a NAVAL POSTGRADUATE SCHOOL MONTEREY CA report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A838224. The abstract provided by the Pentagon follows: The absence of common software platforms for Autonomous Underwater Vehicle (AUV) mission planning and analysis is an ongoing impediment to collaborative work between research institutions, their partners, and end users, This thesis details the design and implementation of a distributable application to facilitate AUV mission planning and analysis. Java-based open-source libraries and a component-based framework provide... |
|
1996 Symposium on Autonomous Underwater Vehicle Technology (Auv by IEEE (Author), IEEE Oceanic Engineering Society (Author), IEEE Industry Applications Society (Editor) | |
 |
Proceedings of the 1998 Workshop on Autonomous Underwater Vehicles: August 20 and 21, 1998 Cambridge, Massachusetts, USA by IEEE Oceanic Engineering Society (Author), IEEE (Author), Ieee Institute of Electrical & Electroni (Editor) The proceedings of this two day workshop include presentations on current practice, hardware trends and non-traditional approaches to autonomous underwater vehicle navigation. |
|
|
Hardware Integration of the Small Autonomous Underwater Vehicle Navigation System (SANS) Using a PC/104 Computer by Kadir Akyol (Author) This is a NAVAL POSTGRADUATE SCHOOL MONTEREY CA report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A302263. The abstract provided by the Pentagon follows: At the Naval Postgraduate School (NPS), a small AUV navigation system (SANS) has been developed for research in support of shallow-water mine countermeasures and coastal environmental monitoring. The objective of this thesis is to develop a new version of SANS, aimed at reducing size and increasing reliability by utilizing state-of-the-art hardware components. The new hardware configuration uses a PC/104 computer system, and... |
|
|
Calibration and Evaluation of Water Speed Indicator and Compass for the Small Autonomous Underwater Vehicle Navigation Filter by Randall G. Knapp (Author) This is a NAVAL POSTGRADUATE SCHOOL MONTEREY CA report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A154143. The abstract provided by the Pentagon follows: There are three major thrusts to this thesis. The first was to design and build a device to measure ground speed for testing the position estimating capabilities of the Small Autonomous Navigation System (SANS) filter. The ground tests consisted by placing the SANS unit on a golf cart and maneuvering it along a known track. The speed sensing device uses a bicycle wheel attached to the golf cart along with an appropriate... |
|
|
Obstacle Avoidance Control for the REMUS Autonomous Underwater Vehicle by Christopher D. Chuhran (Author) This is a NAVAL POSTGRADUATE SCHOOL MONTEREY CA report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon and assembled with Velobinding in a soft, white linen cover. The abstract provided by the Pentagon follows.As the Navy continues its development of unmanned underwater vehicles, the need for total autonomous missions grows. Autonomous Underwater Vehicles (AUV) allow for advances in mine warfare, harbor reconnaissance, undersea warfare and more. Information can be collected from AUVs and downloaded into a ship or battle group's network. As AUVs are developed it is clear forward-look sonar will be required to be able to detect obstacles in front of its search path. Common obstacles in the littoral environment... |
|
|
An XML-Based Mission Command Language for Autonomous Underwater Vehicles (AUVs) by Darrin L. Hawkins (Author), Barbara C. Van Leuvan (Author) This is a NAVAL POSTGRADUATE SCHOOL MONTEREY CA report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A905714. The abstract provided by the Pentagon follows: Autonomous Underwater Vehicles (AUVs) are now being introduced into the fleet to improve Mine Warfare capabilities. Several AUVs are under government-contracted development. Mission planning and data reporting vary between vehicles and systems. This variation does not pose an immediate problem, as only one AUV is typically in operation at any given time. However, as more AUVs are put into production, cooperative operations... |
| © 2009 BrightSurf.com |