Wednesday, May 17, 2023

Significant Growth in Optical Communication and Networking Equipment Market by 2027

Global optical communication and networking equipment market is estimated at USD 24.2 billion in 2022 and is projected to reach USD 36.6 billion by 2027, growing at a CAGR of 8.6% from 2022 to 2027.

The manufacturers of optical transceivers are concentrating more on R&D for serving different applications in the metro network, data center interconnect, long haul applications, and others, which require optical transceivers to be compatible with the complex network.

The existence of multiple protocols and platforms and consistent requirements for compact networks have resulted in the growing use of connectivity ICs. Also, hardware and software both play a key role in emerging technology-based products, such as the Internet of Things (IoT) devices, which are deployed in optical communication networks.

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The expansion of telecommunication infrastructure will have a substantial effect on developing countries in a positive way. With the advent of IoT, AI, and Big Data, there is an increasing demand for smart devices and other connected applications. The interconnected technologies across telecommunication sectors play an important role in capturing, translating, and transferring data into meaningful information, which is crucial for the reinforcement of urban infrastructure. The backbone for this kind of infrastructural development is a high-speed fiber optics network, which can transfer enormous amounts of data, at high speed, from one end to another. The implementation of the 5G network and 6G network requires high-bandwidth oriented fiber optical cables integrated with optical transceivers for secured and reliable data transfers. Therefore, the expansion of optical communication infrastructure across developing nations will drive the optical communication and networking equipment market in the future.

Fiber optic technology-based storage and communication systems were deemed to be safer than the conventional copper cable-based systems as hacking into data within a fiber optic-based system required extremely sophisticated technology, which used to be only available to government agencies. However, in recent times, inexpensive hardware and software have started emerging. Hardware equipment such as optical/electrical converters transfer the converted signal via the Ethernet connection. Moreover, hacking is possible using sniffer software. With the advancement in technology, fiber hack is becoming commonplace, and the belief that the fiber-optic cable networks are secure is proving to be wrong. With these technologies, data theft is becoming easily possible for hackers, and it is not even getting detected. Fiber hack has been a major challenge for the optical network community and might lead to serious ramifications if not checked at the right time.

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