U. Schelinski scite author profile

There is an increasing need for reliable authentication for a number of applications such as e commerce. Common authentication methods based on ownership (ID card) or knowledge factors (password, PIN) are often prone to manipulations and may therefore be not safe enough. Various inherence factor based methods like fingerprint, retinal pattern or voice identifications are considered more secure. Retina scanning in particular offers both low false rejection rate (FRR) and low false acceptance rate (FAR) with about one in a million. Images of the retina with its characteristic pattern of blood vessels can be made with either a fundus camera or laser scanning methods. The present work describes the optical design of a new compact retina laser scanner which is based on MEMS (Micro Electric Mechanical System) technology. The use of a dual axis micro scanning mirror for laser beam deflection enables a more compact and robust design compared to classical systems. The scanner exhibits a full field of view of 10° which corresponds to an area of 4 mm2 on the retinal surface surrounding the optical disc. The system works in the near infrared and is designed for use under ambient light conditions, which implies a pupil diameter of 1.5 mm. Furthermore it features a long eye relief of 30 mm so that it can be conveniently used by persons wearing glasses. The optical design requirements and the optical performance are discussed in terms of spot diagrams and ray fan plots. There is an increasing need for reliable authentication for a number of applications such as e commerce. Common authentication methods based on ownership (ID card) or knowledge factors (password, PIN) are often prone to manipulations and may therefore be not safe enough. Various inherence factor based methods like fingerprint, retinal pattern or voice identifications are considered more secure. Retina scanning in particular offers both low false rejection rate (FRR) and low false acceptance rate (FAR) with about one in a million. Images of the retina with its characteristic pattern of blood vessels can be made with either a fundus camera or laser scanning methods. The present work describes the optical design of a new compact retina laser scanner which is based on MEMS (Micro Electric Mechanical System) technology. The use of a dual axis micro scanning mirror for laser beam deflection enables a more compact and robust design compared to classical systems. The scanner exhibits a full field of view of 10° which corresponds to an area of 4 mm2 on the retinal surface surrounding the optical disc. The system works in the near infrared and is designed for use under ambient light conditions, which implies a pupil diameter of 1.5 mm. Furthermore it features a long eye relief of 30 mm so that it can be conveniently used by persons wearing glasses. The optical design requirements and the optical performance are discussed in terms of spot diagrams and ray fan plots

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1394AP: a protocol for deterministic industrial communication via IEEE 1394

Frommhagen

Nauber

Schelinski

et al. 2005

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MEMS scanner mirror based system for retina scanning and in eye projection

Woittennek

Knobbe

Pügner

et al. 2015

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Many applications could benefit from miniaturized systems to scan blood vessels behind the retina in the human eye, so called, retina scanning". This reaches from access control to sophisticated security applications and medical devices. High volume systems for consumer applications require low cost and a user friendly operation. For example this includes no need for removal of glasses and self-adjustment, in turn guidance of focus and point of attraction by simultaneous projection for the user. A new system has been designed based on the well-known resonantly driven 2-d scanner mirror of Fraunhofer IPMS. A combined NIR and VIS laser system illuminates the eye through an eye piece designed for an operating distance allowing the use of glasses and granting sufficient field of view. This usability feature was considered to be more important than highest miniaturization. The modulated VIS laser facilitates the projection of an image directly onto the retina. The backscattered light from the continuous NIR laser contains the information of the blood vessels and is detected by a highly sensitive photo diode. A demonstrational setup has been realized including readout and driving electronics. The laser power was adjusted to an eye-secure level. Additional security features were integrated. Test measurements revealed promising results. In a first demonstration application the detection of biometric pattern of the blood vessels was evaluated for issues authentication in

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Novel bridge for networking IEEE 1394 clusters via UWB over coaxial cable for HANA & AV/C digital multimedia networks

Guillen

Scholles

Duzynski

et al. 2008

IEEE Trans. Consumer Electron.

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The 1394-to-Coax bridge described here has been developed to enable Digital Multimedia Home Networks using the existing coax infrastructures as backbone for networking HANA (High-Definition Audio-Video Network Alliance) devices as well as legacy IEEE 1394 AV/C digital multimedia devices which are connected to different 1394 clusters widespread over the consumer's home. The implementation is based in the future standard "Networking IEEE 1394 Clusters via UWB over Coaxial Cable", currently in development by the 1394 Trade Association (1394TA). One of our main goals was to provide a platform which verifies this standard

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U. Schelinski

IEEE 1394 "FireWire" system design for industrial and factory automation applications

Design of a MEMS-based retina scanning system for biometric authentication

1394AP: a protocol for deterministic industrial communication via IEEE 1394

MEMS scanner mirror based system for retina scanning and in eye projection

Novel bridge for networking IEEE 1394 clusters via UWB over coaxial cable for HANA & AV/C digital multimedia networks

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