WELCOME

MINOAS envisions to bring the fiber QoE and realibility to the wireless world

To "open the road" for reliable 6G wireless systems with unprecedented data rates, reliability, and adaptability, MINOAS exploits the optical spectrum, advances in photonics, and optical materials, as well as novel AI methods.

Our Team
Our results
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Our Team

We are Multidisiplinary Team of Senior and Early Career Researchers

Our team consists of experts in signal processing, wireless communications, optical communications, photonics and materials, as well as AI. 

Baseband signal processing

For designing light tracking approaches of mobile user equipment and channel estimation schemes. 

Wireless communications

For designing the physical layer, medium access control, as well as the optical resource management approaches. 

Optical communications, photonics, and advanced optical materials

For designing and developing advanced optical materials, which go beyond the conventional Snell law and showcase the functionalities of MINOAS. 

Artificial Intelligence

To bring reconfigurability, adaptability, and automation to the MINOAS optical wireless system. 

OUR APPROACH

Towards Flexible, Scalable, and Modular Designs

MINOAS envisions the design of reliable and flexibly scalable wireless system that supports high-speed communication (in the order of 100 Gbps to 1Tbps) with almost zero-delay by taking advantage of the optical spectrum for medium access and communication with the core network, pioneering technological approximations, such as meta-surfaces for ensuring uninterrupted communication in obstacle riddled environments, and machine learning based design of medium access, resource allocation and network administration techniques. For the realization of this vision, a novel system model will be developed and analyzed that will contain physical, MAC and RRM layer design considering the particularities of the optical band, a pioneering beyond Shannon theoretical framework will be extracted, and network machine learning methodologies will be proposed. These results are expected to “open the road” for the realization of novel highly capable 6G wireless system

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Pillar 1

Optical wireless communications for high-data rate and high-security connectivity

Pillar 3

“Almost-zero latency” and high-computational capabilities at the edge

Pillar 2

AI-based optical wireless network orchestration to maximize the system’s energy efficiency

RESULTS

Recent Project Results

According to Statica

More than 18.22 billion mobile devices till 2025

Mobilie devices
> 0 billion
Year
0
Increase
~ 0

Societal sustainability

Towards carbon zero society

MINOAS will enable the transition of OWC infrastructures towards a more sustainable paradigm that optimizes CO2 emissions for next generation applications and contributes to the major societal target of a carbon zero society.

Economic sustainability

Towards economic sustainability

MINOAS will unlock the technological potential of autonomous systems in high-value applications, which will lead to tangible economic savings.

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