Add to ORKGAMICOM network of excellence has three North Star Projects (NSP). One of them is MMID – Millimetre Wave Identification Using RF MEMS and Nanocomponents. Key objectives of MMID NSP are: a) To study the basic concept of MMID, b) to define in detail primary MEMS and nanocomponent development areas, c) to design and prototype selected millimeter MEMS and nanocomponents, d) experiment and test capabilities of the MMID concept at 60 GHz or above, and e) even not being the prime focus, to conceptualise new biosensor and mmwave tag combinations. Millimeter waves facilitate an unusually fruitful frequency range for molecular (material and substance) spectral line measurements
Scaling in silicon semiconductor process technology, although driven by digital applications, has al...
The increasing bandwidth requirement of new wireless applications has lead to standardization of the...
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...
An overview and recent trends on millimeter wave identification - MMID - applications is presented
This paper presents millimeter wave identification (MMID) concept, which extends the Radio frequency...
Millimeter wave identification, or MMID, extends backscattering communication from UHF RFID to milli...
The radio-frequency identification (RFID) concept is expanded to millimeter-wave frequencies and mil...
Technology for millimetre wave radiometers is discussed. Distinction between coherent and incoherent...
The detection of non metallic impurities inside packed products or the visualization of biological e...
Avec l'ouverture de la bande 57-66 GHz en Europe, de nouvelles technologies de communication sans fi...
Radio frequency identification at millimeter waves enables new applications, such as high data rate ...
Radio frequency identification (RFID) is an asymmetric radio protocol, where uplink communication (f...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
Scaling in silicon semiconductor process technology, although driven by digital applications, has al...
The increasing bandwidth requirement of new wireless applications has lead to standardization of the...
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...
An overview and recent trends on millimeter wave identification - MMID - applications is presented
This paper presents millimeter wave identification (MMID) concept, which extends the Radio frequency...
Millimeter wave identification, or MMID, extends backscattering communication from UHF RFID to milli...
The radio-frequency identification (RFID) concept is expanded to millimeter-wave frequencies and mil...
Technology for millimetre wave radiometers is discussed. Distinction between coherent and incoherent...
The detection of non metallic impurities inside packed products or the visualization of biological e...
Avec l'ouverture de la bande 57-66 GHz en Europe, de nouvelles technologies de communication sans fi...
Radio frequency identification at millimeter waves enables new applications, such as high data rate ...
Radio frequency identification (RFID) is an asymmetric radio protocol, where uplink communication (f...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
Scaling in silicon semiconductor process technology, although driven by digital applications, has al...
The increasing bandwidth requirement of new wireless applications has lead to standardization of the...
This paper presents the design, fabrication and millimeter wave measurements of a w-band (75-110 GHz...