The perfect shop for hackers, makers, coders and investors : open source hardware and highly hackable devices. Hackable:Devices aims to promote open hardware and its communities and offers a kind of social network to give them items to share their hacks.
It can act as a reader. It can eavesdrop on a transaction between another reader and a tag. It can analyze the signal received over the air more closely, for example to perform an attack in which we derive information from the tag's instantaneous power consumption. It can pretend to be a tag itself. It is also capable of some less obviously useful operations that might come in handy for development work.
This is the home page of a group of volunteer enthusiasts commited to further enhancing the capabilities of the already awesome Proxmark3, originally developed by Jonathan Westhues and release under the terms of GPL. You are encouraged to visit his site to read his original write up on the build of the proxmark3 as well as take a look at the historical progression from the basic prox to the markII to the final proxmark3. Please bear in mind that any statements on Jonathan's web site relating to the abilities of the board may be little dated now, and the capabilities of the proxmark3 have been (and continue to be) further enhanced, by great enthusiasts, such as Gerhard de Koning Gans who added ISO-14443a support and many others who continue to add features in their own time.
This device can do almost anything involving almost any kind of low-(~125 kHz) or high-(~13.56 MHz) frequency RFID tag. It can act as a reader. It can eavesdrop on a transaction between another reader and a tag. It can analyze the signal received over the air more closely, for example to perform an attack in which we derive information from the tag's instantaneous power consumption. It can pretend to be a tag itself. It is also capable of some less obviously useful operations that might come in handy for development work.
The RFID Security and Privacy Lounge references technical works related to security and privacy in RFID systems published in journals, conference proceedings, technical reports, thesis, eprints, and books. It is maintained and updated roughtly monthly by the UCL's Information Security Group in Belgium headed by Gildas Avoine.
OpenBeacon is a free design for an active RFID device which operates in the 2.4GHz ISM band. The device contains a unique serial number, but may have other information. OpenBeacon is designed as a transceiver device and therefore both transmits and receives radio waves. The intention of this project is to offer a wide range of use cases such as visitor or item tracking and wireless remote control with a free self-contained and low-cost RFID design.
Radio Frequency Identification (RFID) ist der Ueberbegriff fuer alles, was mit der transponderbasierten Erkennung von Dingen zu tun hat. In der oeffentlichen Wahrnehmung steht RFID wohl hauptsaechlich fuer Smartcards und fuer den Barcode-Ersatz. Doch die Anwendungsmoeglichkeiten sind immens und da die Technik noch in den Kinderschuhen steckt, sind viele Einsatzszenarien noch gar nicht erdacht. Diese Seite soll so ein bisschen eine Informationssammlung zum Thema RFID werden. Ob da gelingt, haengt nicht zuletzt von Dir ab. Also wenn Du hier Informationen einpflegen moechtest, dann fuehle Dich frei es zu tun.
Your RFID Superstore for RFID hardware featuring GEN2 UHF RFID equipment and integration services using Alien, Psion Teklogix, SIRIT, OMRON, Printronix, UPM Raflatac equipment.
RFDump is a backend GPL tool to directly interoperate with any RFID ISO-Reader to make the contents stored on RFID tags accessible. This makes the following types of audits possible:
* Test robustness of data-structures on the reader and the backend-application
* Proof-of-concept manipulations of RFID tag contents
* Clone / copy & paste User-Data stored on RFID tags
* Audit tag-security features
A. Bekkali, H. Sanson, and M. Matsumoto. Wireless and Mobile Computing, Networking and Communications, 2007. WiMOB 2007. Third IEEE International Conference on, page 21 -21. (2007)
V. Srinivasan, J. Stankovic, and K. Whitehouse. UbiComp '08: Proceedings of the 10th international conference on Ubiquitous computing, page 202--211. New York, NY, USA, ACM, (2008)