Company Filing History:
Years Active: 2025
Title: Jiang Tang - Innovator in Optical Communication Technology
Introduction
Jiang Tang is a prominent inventor based in Wuhan, China. He is known for his contributions to the field of optical communication technology. His innovative work has led to the development of advanced methods for generating optical signals in communication networks.
Latest Patents
Jiang Tang holds a patent for "Apparatuses and methods for generating an optical signal in an optical communication network." This invention describes apparatuses and methods for generating an optical signal in an optical network. The apparatus comprises at least a first and a second laser configured to generate a first or second series of optical pulses respectively, along with a polarization beam combiner (PBC). The PBC is designed to receive the first and second series of optical pulses, where each optical pulse in the first series is received with a first state of polarization (SOP), and each optical pulse in the second series is received with a second SOP. The first SOP and second SOP are orthogonal to each other, allowing the PBC to combine the two series of optical pulses and output an un-polarized optical signal. This un-polarized optical signal may help to reduce or mitigate nonlinear optical impairments caused by the polarization of the optical signal. Jiang Tang has 1 patent to his name.
Career Highlights
Jiang Tang is associated with Huawei Technologies Co., Limited, a leading global provider of information and communications technology (ICT) infrastructure and smart devices. His work at Huawei has significantly contributed to advancements in optical communication technologies.
Collaborations
Jiang Tang has collaborated with notable colleagues, including Zhiping Jiang and Yasser Chiniforooshan, to further enhance the development of innovative technologies in his field.
Conclusion
Jiang Tang's contributions to optical communication technology exemplify the importance of innovation in enhancing communication networks. His patent reflects a significant advancement that may lead to improved performance in optical systems.