Human Sensing in intelligent mobility
Important Updates
Workshop Date: Nov. 6, 2020
Time: 08:30-12:00 (Pacific Time)
The 1st International Workshop on “The future of in-cabin human-sensing in intelligent mobility: challenges and opportunities”
Sponsored by IEEE ITS Technical Committee on Data Analytics and Intelligent Systems for Advanced Driving and Mobility (DAISY)
IEEE Intelligent Vehicles Symposium - IV2020
June 23, 2020 November 6, 2020| Las Vegas, NV, United States
Important Dates
Submission deadline: Mar. 14, 2020
Acceptance notification: Apr. 18, 2020
Camera-ready version deadline: May 2, 2020
Program
Date: November 6, 2020
Time 08:30 - 11:00 (US Pacific Time)
Scope
In recent years, driver monitoring, and in general, in-cabin human-sensing has become an emerging research topic with the advent of driving automation systems. Key safety-critical problems in automated vehicles such as driver readiness, inattention, and drowsiness could be effectively solved by using driver monitoring systems. In addition, looking into the future of Level 3 systems and MaaS (Mobility-as-a-Service), new mobility related services could be offered based on driver/user state and behavior obtained using in-cabin human-sensing systems.
This workshop will bring together researchers in areas including perception, cognition, estimation, machine learning, multi-modal sensing, data analytics, human-factors, and human-robot/machine/agent interaction. The organizers expect increased industry and government/regulatory research participation to help clarify the challenges, balance the various perspectives, and further the discussions.
Topics
Driver and occupant monitoring
Driver readiness
Automated annotation
Data augmentation
Driving simulation
Head pose estimation
Attention estimation
Human-machine interaction/interface
Occupant state/behavior
Occupant pose estimation
Emotion estimation
Driver workload
Physiological sensing
Takeover/handover
Objectives
Recognize and motivate future requirements and emerging technologies of in-cabin human sensing for automated vehicles
Identify capability gaps in modern in-cabin human sensing systems
Share and discuss novel research that will enable solutions to those problems
Find synergies among researchers who work in similar human-sensing areas but consider different applications
organizers
Mitsuhiro Kamezaki, Ph.D.
Associate ProfessorWaseda UniversityTokyo, JapanUdara Manawadu, Ph.D.
Research EngineerToyota Research Institute Advanced Development (TRI-AD)Tokyo, JapanShunsuke Kogure, M.Eng
Driver Monitoring LeadToyota Research Institute Advanced Development (TRI-AD)Tokyo, JapanPujitha Gunaratne, Ph.D.
Principal ScientistToyota Motor North America,Ann Arbor, MI, USA