한국어

Aalyria plans to establish a laser link mesh network to quickly transmit data on land, in the air, in the ocean, and in space

846
2023-10-26 16:20:40
번역 보기

Aalyria is establishing a laser link mesh network to quickly transmit data on land, in the air, in the ocean, and in space. The maritime part of the plan is about to be pushed forward.

Recently, this DC based laser communication network company announced the signing of a memorandum of understanding with HICO Investment Group, which focuses on investing in shipping and logistics companies. According to the agreement, Aalyria will deploy up to 200 Tightbeam laser terminals on ships in the Middle East, Asia, Europe, Africa, and the Caribbean.

Good grid division: Aalyria stood out from stealth last year, obtained a large number of IPs from Alphabet, and plans to completely change connectivity. The company has two products:
Tightbeam is a laser terminal that can simultaneously transmit speeds of 100 Gbps per wavelength in both directions. This terminal can be connected to ground, sea, air, and space platforms.

Spacetime is a network orchestration software that can draw the most effective route for a segment of data on a large network. The company has signed a contract with Rivada Space Networks to coordinate communication for its planned 600 bird constellations.

Aalyria's laser communication method can eliminate the need to lay miles of fiber optic cables or connect to pure satellite networks for fast connectivity.

It's a bit like going from copper to fiber optic, going back to the past, "Aalyria CEO Chris Taylor told Payload. This is a very big turning point in connectivity.

Contract: According to this memorandum of understanding, Aalyria will collaborate with HICO to deploy its second-generation universal joint laser terminals on up to 200 ships in multiple regions. This is the first commercial agreement signed by the company to deploy terminals on board ships.

Source: Laser Network

관련 추천
  • Due to research conducted by scientists from South Korea and the UK, the power of lasers will increase by one million times

    Due to research conducted by scientists from South Korea and the UK, the power of lasers will be able to increase by one million times. The researchers plan to apply this improvement for scientific purposes.The study was led by representatives of Strathclyde University and the Korea Institute UNIST and GIST. Behind the scenes footage of their work in the journal Nature Photonics. It has been prove...

    2023-11-27
    번역 보기
  • High sensitivity visualization of ultrafast carrier diffusion using a wide field holographic microscope

    A sketch of the imaging and holographic parts of a transient holographic microscope, including a pulse sequence, to illustrate the signal modulation method. By imaging the pinhole array at the sample position, a diffraction limited excitation spot array can be created, allowing for the simultaneous collection of transient data around 100 excitation spots.Femtosecond transient microscopy is an impo...

    2023-12-25
    번역 보기
  • Tongkuai and KDPOF launch their first 980 nm multi gigabit automotive interconnection system

    Tongkuai Optoelectronic Devices, a global leader in vertical cavity laser emitters (VCSEL) and laser diodes (PD) solutions based in Germany, and a Spanish expert in high-speed optical network solutions, KDPOF, showcased the first 980 nm multi gigabit interconnect system for automotive systems at last week's ECOC.Both companies are committed to achieving the most advanced optical data communication...

    2023-10-17
    번역 보기
  • Shanghai Institute of Optics and Mechanics proposes a new solution for quartz glass as a visible light laser material

    Recently, Hu Lili, a research group of the Advanced Laser and Optoelectronic Functional Materials Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, proposed a new scheme based on rare earth ions Dy3+doped quartz glass as a yellow laser material, and the relevant research results were published in the Journal of the American Ceramic Society as "Effect o...

    2024-06-05
    번역 보기
  • Innovative laser technology: a novel quantum cavity model for superradiance emission

    Quantum optics is a complex field where theoretical and experimental physicists collaborate to achieve breakthroughs in explaining subatomic level phenomena.Recently, Farokh Mivehvar from the University of Innsbruck used the most comprehensive model in quantum optics, the Dicke model, to study the interaction between two groups of atoms in a quantized field. This new study makes it possible to obs...

    2024-03-16
    번역 보기