Yovel, Yossi
יוסי יובל
Yovel, Yossi 1979-
יובל, יוסי, 1979-
יובל, יוסי
VIAF ID: 44147662988160551394 (Personal)
Permalink: http://viaf.org/viaf/44147662988160551394
Preferred Forms
- 100 1 _ ‡a Yovel, Yossi
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- 100 1 _ ‡a Yovel, Yossi ‡d 1979-
- 100 1 _ ‡a יובל, יוסי
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- 100 0 _ ‡a יוסי יובל
4xx's: Alternate Name Forms (7)
5xx's: Related Names (1)
- 551 _ _ ‡a Jerusalem/Israel ‡4 ortg ‡4 https://d-nb.info/standards/elementset/gnd#placeOfBirth
Works
Title | Sources |
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Acoustic evaluation of behavioral states predicted from GPS tracking : a case study of a marine fishing bat | |
Acoustically eavesdropping bat predators take longer to capture katydid prey signalling in aggregation | |
Active control of acoustic field-of-view in a biosonar system. | |
Algorithms for classification of acoustical scenes as perceived by echolocating bats | |
An annotated dataset of Egyptian fruit bat vocalizations across varying contexts and during vocal ontogeny | |
Bats adjust their mouth gape to zoom their biosonar field of view | |
Bats aggregate to improve prey search but might be impaired when their density becomes too high. | |
Bats experience age-related hearing loss (presbycusis) | |
Bats pre-adapt sensory acquisition according to target distance prior to takeoff even in the presence of closer background objects. | |
Bats regulate biosonar based on the availability of visual information. | |
BATScan: A radar classification tool reveals large‐scale bat migration patterns | |
Bi-modal sensing for brain-inspired robotic simultaneous localization and mapping, 2016: | |
A bio-mimetic miniature drone for real-time audio based short-range tracking | |
Calling louder and longer: how bats use biosonar under severe acoustic interference from other bats. | |
Cluster analysis of resting-state fMRI time series. | |
Coordinated change at the colony level in fruit bat fur microbiomes through time | |
Echolocating bats can adjust sensory acquisition based on internal cues | |
Echolocating bats detect but misperceive a multidimensional incongruent acoustic stimulus | |
Echolocation at high intensity imposes metabolic costs on flying bats | |
Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome | |
Everyday bat vocalizations contain information about emitter, addressee, context, and behavior | |
Fireflies produce ultrasonic clicks during flight as a potential aposematic anti-bat signal | |
Flowers respond to pollinator sound within minutes by increasing nectar sugar concentration.: Supplementary Data | |
Free-ranging Van Gelder’s bat <i>Bauerus dubiaquercus</i> (Chiroptera: Vespertilionidae) preying on dung beetles in southern Mexico | |
Fruit bats adjust their foraging strategies to urban environments to diversify their diet | |
A fully autonomous terrestrial bat-like acoustic robot | |
A functional role of the sky's polarization pattern for orientation in the greater mouse-eared bat | |
Habitat use of bats in relation to wind turbines revealed by GPS tracking | |
Le־hinaśe la-geveret Aikhman, 2010: | |
How can dolphins recognize fish according to their echoes? A statistical analysis of fish echoes | |
How greater mouse-eared bats deal with ambiguous echoic scenes. | |
Increased sugar concentration in response to a wide range of pollinator sounds can be adaptive for the plant: answer to Raguso et al | |
It's not black or white-on the range of vision and echolocation in echolocating bats. | |
Movement responses of common noctule bats to the illuminated urban landscape | |
Object localization using a biosonar beam: how opening your mouth improves localization | |
On-board recordings reveal no jamming avoidance in wild bats | |
The ontogeny of a mammalian cognitive map in the real world | |
Opportunistic use of banana flower bracts by Glossophaga soricina | |
Optimal localization by pointing off axis. | |
Plant classification from bat-like echolocation signals | |
Plants' ability to sense and respond to airborne sound is likely to be adaptive: reply to comment by Pyke et al | |
Pomboo wanawezaje kutambua samaki kulingana na mwangwi wao? Uchambuzi wa takwimu za mwangwi wa samaki | |
PRINCIPLES AND PATTERNS OF BAT MOVEMENTS: FROM AERODYNAMICS TO ECOLOGY. | |
Reinforcement Learning Enables Resource Partitioning in Foraging Bats | |
A sensory-motor control model of animal flight explains why bats fly differently in light versus dark | |
Sick bats stay home alone: fruit bats practice social distancing when faced with an immunological challenge | |
Sounds emitted by plants under stress are airborne and informative | |
Spatial cognition in bats and rats: from sensory acquisition to multiscale maps and navigation. | |
Species and habitat specific changes in bird activity in an urban environment during Covid 19 lockdown | |
Ultrasound Imaging Reveals Accelerated In-utero Development of a Sensory Apparatus in Echolocating Bats | |
Using on-board sound recordings to infer behaviour of free-moving wild animals | |
The voice of bats: how greater mouse-eared bats recognize individuals based on their echolocation calls | |
What a plant sounds like: the statistics of vegetation echoes as received by echolocating bats | |
What determines the information update rate in echolocating bats | |
להינשא לגברת אייכמן | |
ストレス下にある植物が発する音は空中に伝わり、多くの情報を得られる |