Quality of graphical markers for the needs of eyewear devices

In this paper we propose to cast the problem of identification of people, objects or places into an application for smart glasses that decodes information from graphical markers. We focus on analyzing different factors that can have influence on the processes of the automatic recognition of information from a code. The research we present aims at reviewing recognition performances in function of: size of a marker, distance from/to a marker, position of a marker and hardware used to decode information. Additionally, we describe a colorful graphical marker which was created for comparative analysis with existing monochrome codes. We also analyze accuracy of the detection of markers colors under different illumination conditions and different scanning distances. Moreover, considering possible usages of graphical markers, we present a prototype application, which can potentially provide faster access to patients' information. We believe that it may be very useful, because health care have to deal with a lot of various assets that could be identify or classify by using eyewear devices. Our first conclusions are the facts that following factors may have influence on monochrome code recognition (i) distance from the camera, (ii) rotation and slope of code, (iii) quality and size of the code. Distance from the camera should be adapted to the device that is used to scan the code. Under preliminary studies with colorful codes, tested light conditions and distances did not affect the classification of colors.

[1]  Yanming Zou,et al.  Bar code reading from images captured by camera phones , 2005, 2005 2nd Asia Pacific Conference on Mobile Technology, Applications and Systems.

[2]  Jacek Ruminski,et al.  Interactions with recognized objects , 2014, 2014 7th International Conference on Human System Interactions (HSI).

[3]  Ronald Piscotty,et al.  Barcode Medication Administration Work-Arounds: A Systematic Review and Implications for Nurse Executives , 2013, The Journal of nursing administration.

[4]  Ja-Ling Wu,et al.  Appearance-Based QR Code Beautifier , 2013, IEEE Transactions on Multimedia.

[5]  David Präkel The Visual Dictionary of Photography , 2010 .

[6]  Ana Belén Barragáns-Martínez,et al.  QR-Maps: An efficient tool for indoor user location based on QR-Codes and Google maps , 2011, 2011 IEEE Consumer Communications and Networking Conference (CCNC).

[7]  Giuseppe F. Italiano,et al.  High Capacity Colored Two Dimensional codes , 2010, Proceedings of the International Multiconference on Computer Science and Information Technology.

[8]  Wan-Young Chung,et al.  A Comprehensive Ubiquitous Healthcare Solution on an Android™ Mobile Device , 2011, Sensors.

[9]  Rod Furlan Build your own google glass [Resources_Hands On] , 2013, IEEE Spectrum.

[10]  Yue Liu,et al.  Recognition of QR Code with mobile phones , 2008, 2008 Chinese Control and Decision Conference.

[11]  Bing-Yu Chen,et al.  Artistic QR Code Embellishment , 2013, Comput. Graph. Forum.

[12]  Wendy Galbraith,et al.  Compounding & dispensing errors before and after implementing barcode technology in a nuclear pharmacy. , 2012, International journal of pharmaceutical compounding.

[13]  Andrew Walsh,et al.  Quick response codes and libraries , 2009 .

[14]  Li-Chuan Chu,et al.  Applying QR Code Technology to Facilitate Hospital Medical Equipment Repair Management , 2012, 2012 International Conference on Control Engineering and Communication Technology.

[15]  B. Ahmed,et al.  Applications of barcode technology in automated storage and retrieval systems , 1996, Proceedings of the 1996 IEEE IECON. 22nd International Conference on Industrial Electronics, Control, and Instrumentation.

[16]  Tack-Don Han,et al.  Usability Evaluation of Designed Image Code Interface for Mobile Computing Environment , 2007, HCI.

[17]  Krzysztof Czuszynski,et al.  Interaction with medical data using QR-codes , 2014, 2014 7th International Conference on Human System Interactions (HSI).

[18]  Grigorios Tsoumakas,et al.  Multi-Label Classification: An Overview , 2007, Int. J. Data Warehous. Min..

[19]  Chengfang Fang,et al.  An Optimization Model for Aesthetic Two-Dimensional Barcodes , 2014, MMM.

[20]  Roberto Manduchi,et al.  Robust real-time detection of multi-color markers on a cell phone , 2013, Journal of Real-Time Image Processing.