Colorless, partially directionless, and contentionless architecture for high-degree ROADMs

Abstract: With the rapid growth of Internet traffic, there can be multiple pairs of bi-directional fibers on a network link. This leads to the need for high-degree reconfigurable optical add/drop multiplexers (ROADMs) in an optical network. However, this high-degree requirement poses new challenges to ROADMs since it is challenging and expensive for a wavelength selective switch (WSS), a key switching component in a ROADM, to expand its size. Therefore, a common strategy is to use small-size WSSs to build a high-degree … Show more

“…Another alternative approach involves decreasing the M × N WSS dimensions on the add-drop side. This strategy partially connects fiber link degrees to add-drop modules, developing a partially directionless design [15]. Although these technologies are innovative, they can compromise the directionless ROADM feature.…”

“…A study by Jinno et al, outlined an important comprehensive set of requirements, including enhanced fiber capacity, higher optical channel capacity, and lower cost with energy consumption per bit [7]. Notably, achieving higher spectrum efficiency at information rates above 100 Gb/s becomes particularly concerning when comparable optical reaches are required [8]. Elastic optical networks (EONs) are a promising solution that provides configurable granularity aggregation, flexible spectrum grids, and improved spectral efficiency compared to traditional WDM systems [3][4][5][6][7][8][9].…”

“…Notably, achieving higher spectrum efficiency at information rates above 100 Gb/s becomes particularly concerning when comparable optical reaches are required [8]. Elastic optical networks (EONs) are a promising solution that provides configurable granularity aggregation, flexible spectrum grids, and improved spectral efficiency compared to traditional WDM systems [3][4][5][6][7][8][9]. The flexible grid concept was introduced in the 2012 International Telecommunication Union (ITU-GT) guideline (694.1), reinforcing the spectrum allocation approach of EON.…”

“…The investigation of high-degree ROADMs has been a prominent focus in existing studies, which is critical in effectively managing the growing traffic and accommodating more optical network fibers. Studies by Sato et al, extensively explored largesize and economical ROADMs as pioneering works [8,10]. Meanwhile, the challenges associated with manufacturing significant WSS dimensions have prompted researchers to explore high-degree ROADMs using commercially accessible WSSs of smaller sizes.…”

Optimizing performance in elastic optical networks using advanced reconfigurable optical add-drop multiplexers: A novel design approach and comprehensive analysis

“…Another alternative approach involves decreasing the M × N WSS dimensions on the add-drop side. This strategy partially connects fiber link degrees to add-drop modules, developing a partially directionless design [15]. Although these technologies are innovative, they can compromise the directionless ROADM feature.…”

“…A study by Jinno et al, outlined an important comprehensive set of requirements, including enhanced fiber capacity, higher optical channel capacity, and lower cost with energy consumption per bit [7]. Notably, achieving higher spectrum efficiency at information rates above 100 Gb/s becomes particularly concerning when comparable optical reaches are required [8]. Elastic optical networks (EONs) are a promising solution that provides configurable granularity aggregation, flexible spectrum grids, and improved spectral efficiency compared to traditional WDM systems [3][4][5][6][7][8][9].…”

“…Notably, achieving higher spectrum efficiency at information rates above 100 Gb/s becomes particularly concerning when comparable optical reaches are required [8]. Elastic optical networks (EONs) are a promising solution that provides configurable granularity aggregation, flexible spectrum grids, and improved spectral efficiency compared to traditional WDM systems [3][4][5][6][7][8][9]. The flexible grid concept was introduced in the 2012 International Telecommunication Union (ITU-GT) guideline (694.1), reinforcing the spectrum allocation approach of EON.…”

“…The investigation of high-degree ROADMs has been a prominent focus in existing studies, which is critical in effectively managing the growing traffic and accommodating more optical network fibers. Studies by Sato et al, extensively explored largesize and economical ROADMs as pioneering works [8,10]. Meanwhile, the challenges associated with manufacturing significant WSS dimensions have prompted researchers to explore high-degree ROADMs using commercially accessible WSSs of smaller sizes.…”

Optimizing performance in elastic optical networks using advanced reconfigurable optical add-drop multiplexers: A novel design approach and comprehensive analysis

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