Подписаться
Nick Armstrong-Crews
Nick Armstrong-Crews
Radar Perception Lead, Waymo
Подтвержден адрес электронной почты в домене mit.edu
Название
Процитировано
Процитировано
Год
Oracular partially observable markov decision processes: A very special case
N Armstrong-Crews, M Veloso
Proceedings 2007 IEEE International Conference on Robotics and Automation …, 2007
512007
Cramnet: Camera-radar fusion with ray-constrained cross-attention for robust 3d object detection
JJ Hwang, H Kretzschmar, J Manela, S Rafferty, N Armstrong-Crews, ...
European conference on computer vision, 388-405, 2022
452022
System and method for fast, secure removal of objects from disk storage
NL Armstrong-Crews, LY Chiu, PJ Cozzi, PR Eaton, P Sarkar, ...
US Patent 7,216,207, 2007
262007
Human-robot site survey and sampling for space exploration
T Fong, M Bualat, L Edwards, L Flückiger, C Kunz, S Lee, E Park, V To, ...
Space 2006, 7425, 2006
232006
Space-time modulated active 3D imager
NL Armstrong-Crews, BJ Remesch
US Patent 9,514,378, 2016
222016
A team of humanoid game commentators
M Veloso, N Armstrong-Crews, S Chernova, E Crawford, C McMillen, ...
International Journal of Humanoid Robotics 5 (03), 457-480, 2008
222008
An approximate algorithm for solving oracular POMDPs
N Armstrong-Crews, M Veloso
2008 IEEE International Conference on Robotics and Automation, 3346-3352, 2008
122008
Identifying the position of a horn honk or other acoustical information using multiple autonomous vehicles
N Armstrong-Crews
US Patent 11,958,505, 2024
72024
Helicopter Routing for Maintaining Remote Sites in Alaska using a Genetic Algorithm.
N Armstrong-Crews, K Mock
Proceedings of the National Conference on Artificial Intelligence 20 (4), 1586, 2005
62005
Doppler-assisted object mapping for autonomous vehicle applications
N Armstrong-Crews, M Chen, HU Xiaoxiang, CA Braley, Y Jiang
US Patent 12,050,267, 2024
42024
Solving POMDPs from both sides: Growing dual parsimonious bounds
N Armstrong-Crews, G Gordon, M Veloso
AAAI workshop for advancement in POMDP solvers, 2008
42008
Simulating degraded sensor data
N Armstrong-Crews, A Safira, A Mccauley, R Evans
US Patent 11,514,343, 2022
32022
Automatic labeling of objects in sensor data
B White, C Gao, S Rafferty, N Armstrong-Crews
US Patent 11,481,579, 2022
32022
Multi-axis velocity and rangefinder optical measurement device
B Remesch, N Armstrong-Crews
US Patent 11,988,746, 2024
12024
Detection of particulate matter in autonomous vehicle applications
N Armstrong-Crews, A Safira
US Patent 11,656,629, 2023
12023
Methods and systems to determine a strategy for a drop process associated with a light detection and ranging (LIDAR) device
B Gassend, S McCloskey, S Osborn, N Armstrong-Crews
US Patent 11,604,284, 2023
12023
Methods and systems for detecting sensor occlusions
B Gassend, N Armstrong-Crews, S McCloskey
US Patent 10,976,420, 2021
12021
LIDAR occlusion detection methods and systems
P Karplus, B Gassend, N Armstrong-Crews, S McCloskey
US Patent 12,085,647, 2024
2024
Methods and systems to determine a strategy for a drop process associated with a light detection and ranging (LIDAR) device
B Gassend, S McCloskey, S Osborn, N Armstrong-Crews
US Patent 12,044,781, 2024
2024
Methods and Systems for Filtering Vehicle Self-reflections in Radar
N Armstrong-Crews
US Patent App. 18/456,097, 2024
2024
В данный момент система не может выполнить эту операцию. Повторите попытку позднее.
Статьи 1–20