Author Info
Name
Affiliation
Papers
TAKAMASA HIGUCHI
Grad. Sch. of Inf. Sci. & Technol., Osaka Univ., Suita, Japan|c|
25
Collaborators
Citations 
PageRank 
61
21
9.22
Referers 
Referees 
References 
82
165
48
Search Limit
100165
Title
Citations
PageRank
Year
Enabling Pervasive Federated Learning Using Vehicular Virtual Edge Servers00.342021
Keynote: Orchestrating Vehicular Computing Resources To Form Floating Virtual Edge Servers00.342021
Impact of the MEC Location in Transport Networks on the Capacity of 5G to Support V2X Services00.342021
Chain Of Interdependent Vehicular Micro Clouds00.342021
Analysis Of 5g Ran Configuration To Support Advanced V2x Services00.342021
A DEFINITION AND FRAMEWORK FOR VEHICULAR KNOWLEDGE NETWORKING: An Application of Knowledge-Centric Networking10.342021
Dwell time estimation at intersections for improved vehicular micro cloud operations00.342021
Awareness Assessment of Connected Vehicles in Highway Driving: A Perceived Safety Approach00.342021
On the Predictability of Parking Preferences00.342021
Demo: Vehicular Micro Cloud as an Enabler of Intelligent Intersection Management00.342020
Monitoring Live Parking Availability by Vision-based Vehicular Crowdsensing.00.342020
On the Scalability of the 5G RAN to Support Advanced V2X Services00.342020
Vehicular knowledge networking and application to risk reasoning00.342020
Signal Phase and Timing by a Vehicular Cloud.00.342020
On the Orchestration of Federated Learning through Vehicular Knowledge Networking20.352020
Hybrid Vehicular and Cloud Distributed Computing: A Case for Cooperative Perception00.342020
Peer-Assisted Content Delivery Network By Vehicular Clouds: Algorithm And Evaluation00.342019
Cooperative Downloading in Vehicular Heterogeneous Networks at the Edge00.342019
Platoon as a Mobile Vehicular Cloud10.352019
Virtual Edge Computing Using Vehicular Micro Clouds20.482019
Optimized Assignment of Computational Tasks in Vehicular Micro Clouds10.632019
When Cars Meet Distributed Computing: Data Storage as an Example.00.342017
Regional InfoHubs by vehicles: balancing spatio-temporal coverage and network load10.432016
A neighbor collaboration mechanism for mobile crowd sensing in opportunistic networks40.382014
Mobile Node Localization Focusing on Stop-and-Go Behavior of Indoor Pedestrians90.512014