Introduction to FSO Technology
Free space optics (FSO) is a line-of-sight wireless optical communication technology that uses light propagating in free space to transmit data for telecommunications and computer networking. FSO works similarly to fiber optics, with the exception that it uses focused beams of infrared laser light to transmit data over the air instead of sending data through stranded glass fibers. By using narrow, low-power visible or infrared lasers to transmit data, free-space optics is capable of providing economical, high-bandwidth connectivity across localized areas of up to several kilometers.
How FSO Transmission Works
In free space optical communication, data is transmitted using optical carriers generated by laser diodes or light emitting diodes in the infrared spectrum around 800nm. The lasers are directed by a narrow beam transceiver through a transmitter telescope onto a receiver telescope. The receiver then detects the intensity of the received light using a photodetector and converts it back into an electrical signal containing the transmitted data. At the physical layer, FSO technology utilizes various modulation techniques like on-off keying (OOK) to encode binary data onto the optical carrier signal. Forward error correction coding is also employed to boost reliability over the wireless link.
Advantages of FSO over Conventional Wireless
One of the major advantages of Free Space Optics Communication over RF wireless technologies is its ability to support significantly higher bandwidth potential in the multi-gigabit range. This higher capacity allows it to meet the growing demand for bandwidth driven by increased use of technologies like 4G/5G cellular, cloud infrastructure, and video conferencing. Additionally, FSO transmissions have less interference and experience a smaller delay spread compared to RF which makes them compatible with latency-sensitive applications. Regulations concerning frequency licensing and spectrum availability also do not apply to FSO technology. It provides a secured and unregulated wireless transmission medium that is free from RF interference and eavesdropping issues.
Applications of FSO Communication Systems
With the advantages mentioned above, some major applications where FSO technology is prevalent include:
- Last Mile Connectivity: Used by internet service providers to provide high-speed broadband access in the final connection from the service provider to individual homes and businesses through point-to-point links. This provides a wireless alternative to laying fiber.
- Mobile Backhaul: As a supplement or replacement for microwave radio systems, FSO is utilized by mobile network operators for backhauling mobile data from cell sites to the core network. The high bandwidth of FSO makes it suitable for 5G backhaul requirements.
- Enterprise Connectivity: Many corporate and institutional campuses employ FSO to interconnect multiple buildings within a campus for LAN connectivity, storage area networking, and broadband access. It provides secure and licensed-free connectivity as an alternative to buried fiber.
- Disaster Recovery: In times when fiber or cellular connectivity is down due to disasters, FSO provides emergency broadband for first responders since it does not rely on buried infrastructure.
- Oil & Gas Platforms: Offshore and remote oil production sites leverage FSO for delivering high-speed connectivity between offshore rigs and platforms for control and monitoring over the air.
Deployment Challenges of FSO Systems
While FSO technology provides promising capabilities, there are also some challenges that need to be overcome for widespread deployment:
- Atmospheric Effects: Factors like fog, smoke, dust and precipitation can scatter or absorb the optical signals, degrading performance. Proper installation with atmospheric compensation is required.
- Alignment and Pointing: The transmitter and receiver need to be accurately aligned and any movement potentially causes disruption. Advanced tracking mechanisms improve reliability.
- Safety Standards: Strict regulations regarding permissible exposure limits for laser emissions need to be followed to prevent eye or skin safety hazards.
- Installation Complexity: Setting up FSO links requires specialized skills and equipment for tasks like installation of large telescopes and precision alignment of the beam.
Despite these obstacles, the benefits of high bandwidth and low infrastructure costs have made FSO an attractive supplemental or bridging technology where line-of-sight conditions allow. With continued development, it has strong potential to play an integral role in next-generation communications networks.
Get More Insights on Free Space Optics Communication
The investigative study on the Global Free Space Optics Communication Technology recently added by Emergen Research sheds light on the current market scope as well as the emerging trends and opportunities of the market.
To provide a deeper understanding of the global market, the report offers a statistical analysis of the global and local production and consumption ratio.
The report also offers a comprehensive analysis of the competitive landscape with company profiles and product portfolios.Get a sample of the report - https://www.emergenresearch.com/request-sample/231 Primary Research ModelPost combination of the information got through optional examination; an approval interaction is started to check the numbers or figures.
Conversations with the topic specialists were directed to acquire quantitative and subjective data and approve our statistical surveying discoveries.Notwithstanding, we don't confine our essential meetings just to the business chiefs.
Our group covers the whole worth chain while confirming the information.
The latest things, which incorporate the drivers, limitations, and openings, are additionally inferred through the essential examination measure.Key Features of the Global Free Space Optics Communication Technology:· The report offers a deep insight into the market with expert data insights from the industry experts and analysts · Dedicated focus on market growth and restraining factors · Thorough analysis of the market segments includes product types, application spectrum, technology, end-user, and other key segments · SWOT and Porter’s Five Forces analysis along with feasibility analysis and venture return analysis · Current and emerging market trends and growth prospects To read more about the report, visit - https://www.emergenresearch.com/industry-report/free-space-optics-communication-technology-market Data TriangulationThe interaction of information triangulation technique was applied to show up at the last market appraisals to check every information point.
