This paper presents millimeter wave identification (MMID) concept, which extends the Radio frequency identification (RFID) systems to millimeter wave frequencies. The MMID system is described as well as experimental demonstrations are presented both at 60 GHz and 77 GHz
Abstract—The ultra high frequency (UHF) band spectrum will likely be congested in near future since ...
The increasing bandwidth requirement of new wireless applications has lead to standardization of the...
In the future, the need to identify and sense objects through ultra-low-power or zero-power communic...
This paper presents millimeter wave identification (MMID) concept, which extends the Radio frequency...
The radio-frequency identification (RFID) concept is expanded to millimeter-wave frequencies and mil...
Millimeter wave identification, or MMID, extends backscattering communication from UHF RFID to milli...
An overview and recent trends on millimeter wave identification - MMID - applications is presented
Radio frequency identification at millimeter waves enables new applications, such as high data rate ...
This paper introduces a novel way to implement passive RF identification (RFID) at millimeter waves....
Radio frequency identification (RFID) is an asymmetric radio protocol, where uplink communication (f...
Avec l'ouverture de la bande 57-66 GHz en Europe, de nouvelles technologies de communication sans fi...
This paper presents the design, fabrication and millimeter wave measurements of a w-band (75-110 GHz...
AMICOM network of excellence has three North Star Projects (NSP). One of them is MMID – Millimetre W...
International audienceThe passive UHF RFID technology, well known for the logistics and security app...
This chapter introduces the unique mm-wave applications such as multi-Gbps radio, automotive radar a...
Abstract—The ultra high frequency (UHF) band spectrum will likely be congested in near future since ...
The increasing bandwidth requirement of new wireless applications has lead to standardization of the...
In the future, the need to identify and sense objects through ultra-low-power or zero-power communic...
This paper presents millimeter wave identification (MMID) concept, which extends the Radio frequency...
The radio-frequency identification (RFID) concept is expanded to millimeter-wave frequencies and mil...
Millimeter wave identification, or MMID, extends backscattering communication from UHF RFID to milli...
An overview and recent trends on millimeter wave identification - MMID - applications is presented
Radio frequency identification at millimeter waves enables new applications, such as high data rate ...
This paper introduces a novel way to implement passive RF identification (RFID) at millimeter waves....
Radio frequency identification (RFID) is an asymmetric radio protocol, where uplink communication (f...
Avec l'ouverture de la bande 57-66 GHz en Europe, de nouvelles technologies de communication sans fi...
This paper presents the design, fabrication and millimeter wave measurements of a w-band (75-110 GHz...
AMICOM network of excellence has three North Star Projects (NSP). One of them is MMID – Millimetre W...
International audienceThe passive UHF RFID technology, well known for the logistics and security app...
This chapter introduces the unique mm-wave applications such as multi-Gbps radio, automotive radar a...
Abstract—The ultra high frequency (UHF) band spectrum will likely be congested in near future since ...
The increasing bandwidth requirement of new wireless applications has lead to standardization of the...
In the future, the need to identify and sense objects through ultra-low-power or zero-power communic...
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