Optiwave Optisystem -
Multimode, single-mode, nonlinear, and polarization-maintaining fibers.
是 OptiSystem 的重要阵地。众多高校将其引入光通信课程与实验教学,例如利用 OptiSystem 进行 掺铒光纤放大器(EDFA) 的实验教学,通过设计基础验证、综合应用和探索研究型实验,有效激发了学生的学习积极性和科学素养。此外,OptiSystem 在光纤传感、可见光通信(VLC)、孤子传输等领域的研究中也得到了广泛应用。Optiwave 官方还提供从基础到高级的 Lab Assignments ,帮助用户掌握从衰减受限、色散补偿到接收机灵敏度分析等关键技能。
Enter , the industry-leading software suite for planning, testing, and simulating optical communication systems. Used by researchers, engineers, and students worldwide, OptiSystem is designed to meet the demands of modern optical telecommunications. optiwave optisystem
OptiSystem does not operate in isolation. It features open interfaces to extend its capabilities:
Optiwave OptiSystem is an innovative, powerful, and easy-to-use software application that enables users to design, test, and optimize virtually any type of optical link in the physical layer of a broad spectrum of optical networks. OptiSystem does not operate in isolation
OptiSystem supports a wide range of modulation schemes, including mQAM, PAM4/PAM8, DPSK, mPSK, OFDM, and probabilistic amplitude shaping (PAS). The software also includes powerful digital signal processing (DSP) blocks, such as digital pre‑emphasis (DPE) filters for compensating bandwidth limitations in high‑speed links, and coherent receiver models that enable advanced compensation of linear and nonlinear impairments.
最引人注目的亮点是新增了 卫星自由空间光通信(FSO)信道组件 ,用于模拟上行、下行及星间链路的光信号传输。同时,支持 PAM4和PAM8多电平信号 的眼图和误码率分析,以满足现代数据中心高速互联的需求。此外, LiDAR信号处理器 也得到更新,新增了动态参考端口,可精确计算飞行时间(ToF)。 and probabilistic amplitude shaping (PAS).
For analyzing temporal pulses. 4. Co-Simulation Capabilities
