You are here
Centeye, Inc.
UEI: ZJP8H1AREDL3
# of Employees: 2
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
-
Advanced Low-SWAP Neuromorphic Autonomy for Nano UAS
Amount: $1,799,567.00We will build a low SWAP neuromorphic vision system and integrate it onto a Centeye nano UAS enabling 1) autonomous detection and avoidance of obstacles including cables as thin as 0.5mm, 2) flight th ...
SBIRPhase II2023Department of Defense Defense Advanced Research Projects Agency -
Autonomous Nano GNATS
Amount: $166,022.27Centeye, with subcontractor support from Airgility, proposes a Phase 1 effort to develop a marsupial system in which a sUAS "mother ship" carries up to five autonomous nano air vehicles (NAVs) to an a ...
SBIRPhase I2022Department of Defense Defense Threat Reduction Agency -
Multifunctional Integrated Sensing Cargo Pocket UAS
Amount: $749,995.00The overall goal of this project is to prototype a physically robust autonomous nano UAS having the following characteristics: 1) It can handle repeated contacts with hard obstacles at speeds up to 10 ...
STTRPhase II2020Department of Defense Air Force -
Multifunctional Integrated Sensing Cargo Pocket UAS
Amount: $149,996.00The overall goal of this project is to prototype a physical robust autonomous nano UAS having the following characteristics: 1) It can handle repeated contacts with hard obstacles at speeds up to 10 m ...
STTRPhase I2019Department of Defense Air Force -
Miniature Optical Guidance & Navigation
Amount: $1,496,229.00Centeye will develop a modular and reconfigurable vision-based system that will allow micro and nano air vehicles to operate autonomously in near-Earth environments without the use of GPS. The system ...
SBIRPhase II2015Department of Defense Defense Advanced Research Projects Agency -
Biologically-inspired low light integrated vision systems
Amount: $1,049,155.00ABSTRACT: Our objective is to develop a vision system for a micro air vehicle (MAV) or other robotic system that allows it to operate in extremely low light levels, including in zero light conditions ...
STTRPhase II2014Department of Defense Air Force -
Biologically-inspired low light integrated vision systems
Amount: $149,999.00ABSTRACT: Our objective is to develop a vision system for a micro air vehicle (MAV) or other robotic system that allows it to operate in extremely low light levels. We will develop systems capable of ...
STTRPhase I2013Department of Defense Air Force -
On-board navigation for small MAVs in ship-borne environments
Amount: $79,985.00The goal of this effort is to build a fully on-board vision based navigation system for small micro air vehicles (SMAVs) that will allow autonomous flight and navigation in a ship-borne environment. T ...
SBIRPhase I2012Department of Defense Navy -
Processing for Flexible Sensors
Amount: $794,004.00The overall goal of this project is to develop a flexible acuity sensor (FAS), including both hardware and software, and demonstrate its ability to acquire and track moving targets in the environment, ...
SBIRPhase II2009Department of Defense Air Force -
Processing for Flexible Sensors
Amount: $99,786.00We will develop "flexible sensing" techniques that will enable a single sensor to perform the functions of both a "seeker" and a "target detection device". One set of approaches will comprise resolut ...
SBIRPhase I2008Department of Defense Air Force