Dashtop mobile

From WikiProjectMed
Jump to navigation Jump to search

Dashtop mobile equipment refers to wireless mobile devices mounted on the vehicle dashboard. Dashtop mobile equipment (DME) includes satellite radios, GPS navigation, OnStar, mobile TV, HD radio, vehicle tracking system, MVEDR[1] and Broadband Wireless Access (BWA) devices. Currently, the dashtop mobile devices are mostly satellite-based wireless technology. Except for OnStar and BWA devices, most of them are in the stage of passive one-way communications equipment.

However, fast-evolving mobile technology is on the threshold of turning dashtop mobile equipment into full-duplex multimedia gadgetry on the strength of fast-growing broadband infrastructure, including expanding WiMAX networks worldwide.[2] of electronic vehicle gadgetry, with growing indications that convergence into an all-in-one dashtop mobile device is an ultimate destination.[3]

History

Since the commercial debut of cellular phones in the early 1990s, Palm Inc took the lead in developing a generation of palmtop handheld personal computers that worked like an electronic personal organizer. Palmtops turned into Personal Digital Assistants (PDAs) with mobile phone functions.

As of 2007, PDA phones are preferred by some, due mainly to wider screens and easier texting plus mobile multimedia functions, such as audio video playback, mobile web and mobile TV. Apple's iPhone made a debut in late June 2007, featuring keypadless touchscreens with multi-touch.

Mobile issues

Mobile technology is evolving fast, and in the 2007 NEXTcomm opening keynote in Chicago, Ed Zander, then CEO of Motorola, noted "Today it's about fast, affordable broadband Internet. Tomorrow I believe it's about wireless and broadband media platforms. And we as an industry have to work together, software and platforms, the content players and the carriers, as well as the equipment suppliers like ourselves, to bring this vision of this broadband media platform to a reality."[4]

At the same NXTcomm conference, Verizon Chairman and CEO Ivan Seidenberg also proclaimed, "We have barely begun to imagine all the ways that rich graphics, two-way broadband and virtual reality will transform medicine, education and creative industries. This surge in visual, interactive content – delivered to any screen, anytime, anywhere – has changed our industry forever."[5]

The recall of lithium-ion battery for laptops in 2006, and the emerging safety issue concerning portable handheld devices, like iPOD.[6]

Harnessing vehicle traffic

  • Freedom from battery life concerns due to a possible shift to car battery[7]
  • Driving safety associated with driver focus and driver distraction
  • Transition from voice-intensive cellular technology to media-intensive broadband technology
  • Open access plans adopted for the Federal Communications Commission's 700 MHz Airwave Auctions held for early 2008 in USA and the subsequent openness of the controversial C Block to be realized by Verizon Wireless, the successful bidder[8]

Academic research

Scientific research and market-based R&D endeavors are focused on harnessing vehicle traffic and wireless connections. MIT embarked on Real Time Rome, a project that is designed to create real-time maps of people moving around a city through mobile phone networks with the aim of beating traffic congestion. "Real Time Rome might also help with the better allocation of transport resources."[9][10][11]

UCLA researchers are working on a project to encourage installation of vehicle-to-vehicle mobile computer networks to ensure driving safety and deal with congestions.[12]

Challenges for automakers

Automakers challenges include:

  • how to improve fuel efficiency in keeping with green technology
  • how to enhance driving safety, mainly based on electronic gadgets
  • how to adapt to fast-evolving mobile broadband technology to stay ahead of competition.

Topping the list of dashtop gadgetry issues are MP3 players, video streaming and playback, mega-bit-per-second downloads of multimedia, mobile TV formats, dashtop interfaces either for mobile phones or smartphones, choices of 4G technologies between LTE, UMB and mobile WiMAX.

Scope of applications

Vehicular mobility to lure more BWA equipment and applications

Scope of applications, either on lab benches or in implementation stages, can be summarized as below:

See also

References

  1. ^ IEEE 1616 MVEDR
  2. ^ Dashtop Sprawl
  3. ^ "Mobile WiMAX" IEEE 802.16e-2005
  4. ^ "NXTComm Show". Archived from the original on 2007-08-31. Retrieved 2007-12-05.
  5. ^ "NXTComm Show". Archived from the original on 2007-08-31. Retrieved 2007-12-05.
  6. ^ New York may ban iPods while crossing street
  7. ^ Sony's battery recall
  8. ^ "FCC 700MHz Band Auction". Archived from the original on 2013-04-13. Retrieved 2007-12-02.
  9. ^ Beating Congestion with Mobiles
  10. ^ Real Time Rome
  11. ^ "Rethinking Traffic Congestion" (PDF). Archived from the original (PDF) on 2007-09-30. Retrieved 2007-07-29.
  12. ^ UCLA Newsroom: Taking It to the Streets: UCLA Scientists Seek to Turn Cars Into a Mobile Communications Network
  13. ^ JITeCGO
  14. ^ "Mobile Ticketing". Archived from the original on 2008-02-06. Retrieved 2007-12-02.
  15. ^ Information Week: Paperless Boarding Pass Program Kicks Off
  16. ^ "Real-time fleet GPS tracking". Archived from the original on 2009-06-25. Retrieved 2009-06-17.
  17. ^ Windowns Mobile for Automotive 1.0
  18. ^ "Popular Mechanics". Archived from the original on 2007-11-23. Retrieved 2007-12-02.