The Experts below are selected from a list of 39354 Experts worldwide ranked by ideXlab platform
Keunyoung Park - One of the best experts on this subject based on the ideXlab platform.
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morphing smartphones into Automotive Application platforms
IEEE Computer, 2011Co-Authors: Raja Bose, Jorg Brakensiek, Keunyoung Park, Jonathan LesterAbstract:The Terminal Mode technology integrates smartphones into in-vehicle infotainment systems and transforms them into Automotive Application platforms on the fly, allowing drivers to safely access and interact with mobile Applications.
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terminal mode transforming mobile devices into Automotive Application platforms
Automotive User Interfaces and Interactive Vehicular Applications, 2010Co-Authors: Raja Bose, Jorg Brakensiek, Keunyoung ParkAbstract:Mobile devices such as smart phones have enabled consumers to gain access to a growing number of interactive and useful Applications, anytime anywhere. However, once a user enters his/her vehicle the availability of such Applications and their user experience degrades drastically -- either because of being restricted to using the few Applications available on the In-Vehicle Infotainment (IVI) system or due to the challenges of interacting with a tiny mobile device screen attached to a car dock. In this paper, we present Terminal Mode -- a technology which transforms mobile devices into Automotive Application platforms and seamlessly integrates them into vehicle infotainment systems. This technology not only enables consumers to access their favorite mobile services and Applications in a safe manner while traveling in a vehicle but also provides top quality user experience consistent with high-end IVI systems.
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AutomotiveUI - Terminal mode: transforming mobile devices into Automotive Application platforms
Proceedings of the 2nd International Conference on Automotive User Interfaces and Interactive Vehicular Applications - AutomotiveUI '10, 2010Co-Authors: Raja Bose, Jorg Brakensiek, Keunyoung ParkAbstract:Mobile devices such as smart phones have enabled consumers to gain access to a growing number of interactive and useful Applications, anytime anywhere. However, once a user enters his/her vehicle the availability of such Applications and their user experience degrades drastically -- either because of being restricted to using the few Applications available on the In-Vehicle Infotainment (IVI) system or due to the challenges of interacting with a tiny mobile device screen attached to a car dock. In this paper, we present Terminal Mode -- a technology which transforms mobile devices into Automotive Application platforms and seamlessly integrates them into vehicle infotainment systems. This technology not only enables consumers to access their favorite mobile services and Applications in a safe manner while traveling in a vehicle but also provides top quality user experience consistent with high-end IVI systems.
Arunansu Haldar - One of the best experts on this subject based on the ideXlab platform.
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design and development of precipitate strengthened advanced high strength steel for Automotive Application
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing, 2013Co-Authors: Subhasis Sinha, Arijit Lodh, Arunansu HaldarAbstract:Abstract Stringent safety and pollution control norms forces the car industry to use higher strength steels in different components of an automobile. However, high strength steels typically possess less formability which makes forming operations difficult. Thus developing high strength steel, with better formability for Automotive Application, is a challenge for all the steel companies those are working to solve in different ways. In the present work, a new approach, from designing of steel composition to finalizing the process parameters, to develop high strength steel (minimum 1000 MPa UTS) with high elongation (minimum 15%) will be discussed in details. High elongation of this steel is expected to make the forming operation easier without compromising with the strength.
C Q Su - One of the best experts on this subject based on the ideXlab platform.
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Performance analysis of a waste heat recovery thermoelectric generation system for Automotive Application
Energy Conversion and Management, 2015Co-Authors: Xiao Ming Liu, Y. D. Deng, Zili Li, C Q SuAbstract:Thermoelectric power generators are one of the promising green energy sources. In this case study, an energy-harvesting system which extracts heat from an Automotive exhaust pipe and turns the heat into electricity by using thermoelectric power generators (TEGs) has been constructed. The test bench is developed to analysis the performance of TEG system characteristics, which are undertaken to assess the feasibility of Automotive Applications. Based on the test bench, a new system called "four-TEGs" system is designed and assembled into prototype vehicle called "Warrior", through the road test and revolving drum test table, characteristics of the system such as hot-side temperature, cold-side temperature, open circuit voltage and power output are studied, and a maximum power of 944 W was obtained, which completely meets the Automotive Application. The present study shows the promising potential of using this kind of thermoelectric generator for low-temperature waste heat recovery vehicle.
Raja Bose - One of the best experts on this subject based on the ideXlab platform.
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morphing smartphones into Automotive Application platforms
IEEE Computer, 2011Co-Authors: Raja Bose, Jorg Brakensiek, Keunyoung Park, Jonathan LesterAbstract:The Terminal Mode technology integrates smartphones into in-vehicle infotainment systems and transforms them into Automotive Application platforms on the fly, allowing drivers to safely access and interact with mobile Applications.
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terminal mode transforming mobile devices into Automotive Application platforms
Automotive User Interfaces and Interactive Vehicular Applications, 2010Co-Authors: Raja Bose, Jorg Brakensiek, Keunyoung ParkAbstract:Mobile devices such as smart phones have enabled consumers to gain access to a growing number of interactive and useful Applications, anytime anywhere. However, once a user enters his/her vehicle the availability of such Applications and their user experience degrades drastically -- either because of being restricted to using the few Applications available on the In-Vehicle Infotainment (IVI) system or due to the challenges of interacting with a tiny mobile device screen attached to a car dock. In this paper, we present Terminal Mode -- a technology which transforms mobile devices into Automotive Application platforms and seamlessly integrates them into vehicle infotainment systems. This technology not only enables consumers to access their favorite mobile services and Applications in a safe manner while traveling in a vehicle but also provides top quality user experience consistent with high-end IVI systems.
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AutomotiveUI - Terminal mode: transforming mobile devices into Automotive Application platforms
Proceedings of the 2nd International Conference on Automotive User Interfaces and Interactive Vehicular Applications - AutomotiveUI '10, 2010Co-Authors: Raja Bose, Jorg Brakensiek, Keunyoung ParkAbstract:Mobile devices such as smart phones have enabled consumers to gain access to a growing number of interactive and useful Applications, anytime anywhere. However, once a user enters his/her vehicle the availability of such Applications and their user experience degrades drastically -- either because of being restricted to using the few Applications available on the In-Vehicle Infotainment (IVI) system or due to the challenges of interacting with a tiny mobile device screen attached to a car dock. In this paper, we present Terminal Mode -- a technology which transforms mobile devices into Automotive Application platforms and seamlessly integrates them into vehicle infotainment systems. This technology not only enables consumers to access their favorite mobile services and Applications in a safe manner while traveling in a vehicle but also provides top quality user experience consistent with high-end IVI systems.
Subhasis Sinha - One of the best experts on this subject based on the ideXlab platform.
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design and development of precipitate strengthened advanced high strength steel for Automotive Application
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing, 2013Co-Authors: Subhasis Sinha, Arijit Lodh, Arunansu HaldarAbstract:Abstract Stringent safety and pollution control norms forces the car industry to use higher strength steels in different components of an automobile. However, high strength steels typically possess less formability which makes forming operations difficult. Thus developing high strength steel, with better formability for Automotive Application, is a challenge for all the steel companies those are working to solve in different ways. In the present work, a new approach, from designing of steel composition to finalizing the process parameters, to develop high strength steel (minimum 1000 MPa UTS) with high elongation (minimum 15%) will be discussed in details. High elongation of this steel is expected to make the forming operation easier without compromising with the strength.
