Wireless data transmission using visual codes

In this paper, a new approach for wireless data transmission within an aircraft cabin is presented. The proposed application enables the transmission of data to a passenger’s user device. As wireless in-flight applications are subject to strict frequency and electromagnetic compatibility (EMC) regulations, the data is transferred by optical wireless transmission, specifically by two-dimensional visual codes. To this end, black-and-white or colored visual code sequences are displayed on the in-flight entertainment screen. These visual codes are captured by the built-in camera of the passenger’s mobile device and are decoded to reconstruct the transmitted data. In order to compensate for frame losses caused by effects like occlusion and motion blur, a temporal forward error correction coding scheme is applied. Transmission experiments within an Airbus A330 cabin mock-up demonstrate the functionality of the implemented system under realistic conditions such as ambient illumination and geometric configuration. Representative user devices are used for evaluation; specifically, a low-cost and a high-end smartphone are employed as receivers. Performance evaluations show that the proposed transmission system achieves data rates of up to 120 kbit/s per individual passenger seat with these user devices. As the user device has no physical connection to the sensitive on-board system, the proposed transmission system provides an intrinsic safety feature.

[1]  James M. Coughlan,et al.  Reading LCD/LED Displays with a Camera Cell Phone , 2006, 2006 Conference on Computer Vision and Pattern Recognition Workshop (CVPRW'06).

[2]  Svilen Dimitrov,et al.  On the SIR of a cellular infrared optical wireless system for an aircraft , 2009, IEEE Journal on Selected Areas in Communications.

[3]  Frank R. Kschischang,et al.  Short-range wireless optical communication using pixilated transmitters and imaging receivers , 2004, 2004 IEEE International Conference on Communications (IEEE Cat. No.04CH37577).

[4]  L. M. Sherer,et al.  RADIO TECHNICAL COMMISSION FOR AERONAUTICS , 1947 .

[5]  M. Babb Wi-Fi in the sky , 2004 .

[6]  Burkhard Stiller,et al.  Data Transfer Using a Camera and a Three-Dimensional Code , 2013, Prax. Inf.verarb. Kommun..

[7]  N.P. Schmitt,et al.  High data-rate optical wireless communications in passenger aircraft: Measurements and simulations , 2008, 2008 6th International Symposium on Communication Systems, Networks and Digital Signal Processing.

[8]  Richard Sharp,et al.  Using visual tags to bypass Bluetooth device discovery , 2005, MOCO.

[9]  K.T. Tan,et al.  2D barcodes for mobile phones , 2005, 2005 2nd Asia Pacific Conference on Mobile Technology, Applications and Systems.

[10]  Michael Rohs,et al.  Real-World Interaction with Camera Phones , 2004, UCS.

[11]  Michael Rohs,et al.  Visual code widgets for marker-based interaction , 2005, 25th IEEE International Conference on Distributed Computing Systems Workshops.

[12]  Oliver Bimber,et al.  Unsynchronized 4D barcodes: coding and decoding time-multiplexed 2D colorcodes , 2007 .

[13]  Dina Katabi,et al.  PixNet: interference-free wireless links using LCD-camera pairs , 2010, MobiCom '10.

[14]  Ramesh Raskar,et al.  Bokode: imperceptible visual tags for camera based interaction from a distance , 2009, SIGGRAPH 2009.