The following is a list of scientific papers, technical journals, periodicals, and conference publications which reference the use of OptiSystem. These references were collected from internal sources, customer submitted papers, and scientific articles via Google Scholar – and to the best of our knowledge, make use of our OptiSystem software package. If you locate any mistakes, please notify us immediately by contacting info@optiwave.com.
[1]
R. Chitravelu and G. M. Muthu, Turkish Journal of Electrical Engineering and Computer Sciences.
[2]
P. R. Meher, B. Panigrahi, M. M. Kumar, and A. Singh, “5 GBPS Data Rate Transmission in a WDM Network using DCF with FBG for Dispersion Compensation,” An International Journal of Engineering & Technology.
[3]
S. Chaudhary, D. Thakur, and A. Sharma, “10 Gbps-60 GHz RoF Transmission System for 5 G Applications,” Journal of Optical Communications, 2017.
[4]
A. Khuntia, “10Gbps 2D MGC OCDMA Code over FSO Communication System,” IOP Conference Series: Materials Science and Engineering, 2017.
[5]
H. Mrabet, A. Sangeetha, S. Mhatli, and R. Attia, “40 & 100 Gb/s optical communications systems based on blind support vector machine with electrical equalizer,” Journal of Optoelectronics and Advanced Materials, vol. 19, no. 3–4, 2017.
[6]
B. Das, R. Mukherjee, G. C. Mandal, and A. S. Patra, “40 Gbps Downstream Transmission Using DQPSK and 20 Gbps Upstream Transmission Using IRZ Modulation in Full-Duplex WDM-PON,” Journal of Optical Communications.
[7]
J. Zacharias, M. Philip, S. S. Supriya, and …, “60 GHz OFDM Radio-over-Fiber system based on Fabry-Perot Laser Diode,” 2017 International Conference on Circuit ,Power and Computing Technologies (ICCPCT), 2017.
[8]
R. K. Al-Dabbagh and H. S. Al-Raweshidy, “64-GHz millimeter-wave photonic generation with a feasible radio over fiber system,” Optical Engineering, vol. 56, no. 2, 2017.
[9]
T. Islam and M. N. Uddin, “128 Gbit/s 1620 km Hybrid OTDM-WDM Fiber Optic Communication System,” AJSE.
[10]
A. Kumar and A. Sharma, “A 5×16 Gbps DWDM system for ground-to-satellite using RZ signaling scheme under different turbulences,” Procedia Computer Science, vol. 115, pp. 115–122, 2017.
[11]
K. S. Dastgiri, S. Seyedzadeh, and M. H. Kakaee, “A 40 Gb/s duty-cycle/polarization division multiplexing system,” 2017 25th Iranian Conference on Electrical Engineering, ICEE 2017, pp. 1806–1809, 2017.
[12]
P. Singh and C. Singh, “A Carrier Generated Self Phase Modulation Reliant Rof System Employing RSOA As Modulator For Upstream RAUs And Incorporating DCF, FBG For Dispersion Compensation,” International Journal of Advanced Research in Computer Science, vol. 8, no. 1, 2017.
[13]
R. S. Asha and V. K. Jayasree, “A Coherent Optical OFDM Communication System with Nonlinear Distortion Compensation in the Channel and Receiver,” Journal of Optical Communications, vol. 38, no. 3, pp. 243–248, 2017.
[14]
R. Mishra, A. K. Singh, N. K. Shukla, and C. K. Dwivedi, “A Comparative PerformanceAnalysis of WDM DEMUX with Fiber Bragg Grating,” International Journal of Advanced Research in Electronics and Communication Engineering, vol. 6, no. 12, 2017.
[15]
H. Sarangal, A. Singh, J. Malhotra, and S. Chaudhary, “A cost effective 100 Gbps hybrid MDM–OCDMA–FSO transmission system under atmospheric turbulences,” Optical and Quantum Electronics, vol. 49, no. 5, 2017.
[16]
P. Singh, C. Singh, A. P. Student, and P. Patiala, A Cost Effective Radio over Fiber System Employing RSOA for Upstream and Incorporating Self Phase Modulation for Carrier Generation, vol. 5. ijedr.org, 2017.
[17]
A. Sharma, S. Chaudhary, D. Thakur, and …, “A Cost-Effective High-Speed Radio over Fibre System for Millimeter Wave Applications,” Journal of Optical Communications, 2017.
[18]
Z. Wei and B. Shilei, “A design of an optical polarization division multiplexing system based on a Multi-slot and Multi-level Coding technique,” 2017 16th International Conference on Optical Communications and Networks (ICOCN), 2017.
[19]
S. Piramasubramanian, M. G. Madhan, and M. Sharmila, “A detailed simulation study of radio-over-fiber link for pico cell applications,” 2017 4th International Conference on Advanced Computing and Communication Systems, ICACCS 2017, 2017.
[20]
X. Chen, L. Xia, and D. Huang, “A filterless 24-tupling optical millimeter-wave generation and RoF distribution,” Optik, vol. 147, pp. 22–26, 2017.
[21]
H. Abdoli and H. Nikmehr, “A Flexible CO-OFDM Using Reconfigurable Multi-Precision FFT,” IEEE Communications Letters, vol. 21, no. 9, pp. 1997–2000, 2017.
[22]
T. Yang, M. Gao, J. Qian, J. Zhang, and W. Chen, “A flexible millimeter-wave radio-over-fiber system for various transmission bit rate,” Optics and Laser Technology, vol. 96, pp. 132–140, 2017.
[23]
B. D. Manharbhai, A. K. Garg, and V. Janyani, “A flexible remote node architecture for energy efficient direct ONU internetworking in TDM PON,” 2017 International Conference on Computer, Communications and Electronics, COMP℡IX 2017, pp. 453–457, 2017.
[24]
Z. Zhu, S. Zhao, X. Li, K. Qu, and T. Lin, “A linearized analog photonic link based on a single z-cut linbo3dual-output Mach-Zehnder modulator,” IEEE Photonics Journal, vol. 9, no. 3, 2017.
[25]
A. Chauhan, A. Kumar, and P. Singh, “a Long Haul Co-Ofdm System Incorporating Sdc Module for Isi Compensation,” International Education & Research Journal [IERJ], vol. Volume : 3, no. May, pp. 2016–2018, 2017.
[26]
C. Kandouci, A. Djebbari, and A. Taleb-Ahmed, “A new family of 2D-wavelength-time codes for OCDMA system with direct detection,” Optik, vol. 135, pp. 8–15, 2017.
[27]
S. Kumar, B. Kumar, and A. Singh, “A New Logic Gate for High Speed Optical Signal Processing Using Mach-Zehnder Interferometer (MZI),” INTERNATIONAL JOURNAL, 2017.
[28]
H. V. Nguyen, “A novel 22 Gbit/s 64 QAM direct-detection OFDM ROF system employing cost-effective optical filter FBG to generate optical mm-wave,” Journal of Optics, 2017.
[29]
S. Prasanna and V. Narayanan, “a Novel Approach for Generation of All-Optical Ofdm Using Discrete Cosine Transform Based on Optical Couplers in a Radio-Over-Fiber Link,” International Journal of Advanced Research in Engineering and Technology, vol. 8, no. 83, pp. 43–49.
[30]
A. A. Anis, A. K. Rahman, C. B. M. Rashidi, and S. A. Aljunid, “A novel of an optimal power received in outdoor optical wireless access networks,” International Journal of Applied Engineering Research, vol. 12, no. 7, pp. 1406–1410, 2017.
[31]
F. Hario, I. W. Mustika, A. Susanto, S. Hadi, and S. M. Idrus, “A novel scheme for orthogonal frequency division multiplexing-radio over fiber based on modulator and dithering technique: Impact of self phase modulation and group velocity dispersion,” International Journal of Intelligent Engineering and Systems, vol. 10, no. 4, pp. 117–125, 2017.
[32]
M. B. Zeglam, P. H. Ho, L. Peng, and S. Jie, “A Novel Scheme for Phase Noise Compensation in CO-OFDM Long-Reach Passive Optical Networks,” 2017 International Conference on Networking and Network Applications (NaNA), pp. 75–79, 2017.
[33]
S. Mhatli, H. Mrabet, I. Dayoub, and E. Giacoumidis, “A novel support vector machine robust model based electrical equaliser for coherent optical orthogonal frequency division multiplexing systems,” IET Communications, vol. 11, no. 7, pp. 1091–1096, 2017.
[34]
P. O. Idowu, O. W. Samuel, M. G. Asogbon, and …, “A Novel Transmission System using Broadband Fiber Optic link for Remote Antenna,” International Journal of Multidisciplinary and Current Research, 2017.
[35]
Z. Tong, Y. Hu, Y. Wang, and W. Zhang, “A PAPR reduction rechnique using FHT with repeated companding and filtering in CO-OFDM systems,” 2017 16th International Conference on Optical Communications and Networks (ICOCN), 2017.
[36]
G. Soni, “A Performance Analysis of Free-Space Optical Link at 1 , 550 nm , 850 nm , 650 nm and 532 nm Optical Wavelengths,” Journal of optical communication, pp. 1–7, 2017.
[37]
M. Lei, X. Gao, M. Zhao, and S. Huang, “A phase-tunable microwave phonic downconverter based on double-sideband modulation of radio frequency signal and local oscillator signal,” Asia Communications and Photonics Conference, ACP, vol. 2017-Augus, 2017.
[38]
G. Gao, J. Zhang, L. Lei, and J. Zhou, “A photonics channelization approach for broadband RF spectrum measurement based on I/Q coherent detection and spectrum stitching technique,” International Conference on Communication Technology Proceedings, ICCT, vol. 2017-October, pp. 855–860, 2018.
[39]
S. Ren et al., “A random filtering mapping method for PAPR reduction based on generalized frequency division multiplexing,” ICOCN 2017 – 16th International Conference on Optical Communications and Networks, vol. 2017-Janua, 2017.
[40]
X. MAO and L. I. Rong, “A Research on Static and Dynamic Dispersion Compensation Scheme Based on Optisystem,” DEStech Transactions on SOCIAL SCIENCE, EDUCATION and HUMAN SCIENCE, 2017.
[41]
R. B. Mehtab Singh, “A Review of Dispersion Compensation using Fiber Bragg Grating (FBG) in Optical Communication,” International Advanced Research Journal in Science, Engineering and Technology, vol. 4, no. 6, pp. 1–6, 2017.
[42]
M. Singh, “A review on hybrid optical amplifiers,” Journal of Optical Communications, 2017.
[43]
R. Singh, M. Ahlawat, and D. Sharma, “A Review on Radio over Fiber communication System,” International Journal of Enhanced Research in Management & Computer Applications, no. 4, pp. 22–29, 2017.
[44]
D. Garima and A. K. Garg, A Review Paper on Dispersion Compensation Technique in WDM Optical Networks. academicscience.co.in, 2017.
[45]
R. Zhang and J. Ma, “A simple bidirectional hybrid optical link for alternatively providing wired and wireless accesses based on an optical phase modulator,” Photonic Network Communications, vol. 34, no. 3, pp. 478–485, 2017.
[46]
C. P. Dhote and N. Raghuwanshi, “A simulation Approach for Dispersion Compensation in Optical System with a Fiber Bragg Grating Extending the Reach of DWDM-PON Access Network,” International Journal of Science, Engineering and Technology Researc, vol. 6, no. 4, 2017.
[47]
N. Ramdhan, M. Sliti, and N. Boudriga, “A tree-based data collection protocol for optical unmanned aerial vehicle networks,” Computers and Electrical Engineering, vol. 66, pp. 80–97, 2018.
[48]
F. I. El-Nahal, “A WDM-PON with DPSK modulated downstream and OOK modulated upstream signals based on symmetric 10 Gbit/s wavelength reused bidirectional reflective SOA,” Optoelectronics Letters, 2017.
[49]
A. K. Garg and V. Janyani, “Adaptive bandwidth mechanism using dual rate OLT for energy efficient WDM–TDM passive optical network,” Telecommunication Systems, vol. 66, no. 4, pp. 657–670, 2017.
[50]
W. Bao, L. Liu, J. Fang, M. Bi, and S. Xiao, “Affine Projection Based Modified Constant Modulus Algorithm in CO-OFDM System,” Asia Communications and Photonics Conference, vol. 0, no. 4, pp. 4–6, 2017.
[51]
E. Applications and R. Daud, “Akademia Baru,” Journal of Advanced Research in Applied Sciences and Engineering Technology, no. September, pp. 1–2, 2014.
[52]
A. Adami, S. M. Hamidi, K. Navi, and M. Hosseinzade, “All optical fan out able half adder circuit based on nonlinear directional coupler,” Optik, vol. 141, pp. 114–123, 2017.
[53]
P. Chanalia, A. Gupta, and S. Bakshi, “All Optical High Speed Multiplexer Circuit for Verification of Proposed Gates,” Journal of Optical Communications.
[54]
N. Kachare, A. T. J., K. K. Bai, and D. S. Kumar, “All optical OFDM transmission for passive optical networks,” AIP Conference Proceedings, p. 020006, 2017.
[55]
F. B. de Sousa, E. R. Sabino, F. P. da Luz, J. E. de Oliveira, and …, All-Optical 2R Regenerator Non-Linear Optic Based on the Mamyshev Model. researchgate.net, 2017.
[56]
R. J. L. Ferreira et al., “All-optical fast Fourier transform for processing an optical OFDM superchannel,” 2017 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference (IMOC), pp. 0–4, 2017.
[57]
B. Sukh, H. Kishikawa, N. Goto, and G. Shagdar, “All-Optical Modulation Format Conversion from QPSK to Symbol Rate Doubled BPSK Using FWM and Pulse Width Compression,” Journal of Lightwave Technology, vol. 35, no. 19, pp. 4219–4226, 2017.
[58]
B. Sukh, H. Kishikawa, N. Goto, and G. Shagdar, “All-Optical Modulation Format Conversion from QPSK to Symbol Rate Doubled BPSK Using FWM and Pulse Width Compression,” Journal of Lightwave Technology, vol. 35, no. 19, pp. 4219–4226, 2017.
[59]
G. Li, J. Li, and F. Fang, “All-optical wavelength conversion system with 227 Gbps from 193.4 THz to 193.19 THz,” 2017 IEEE 2nd Information Technology, Networking, Electronic and Automation Control Conference (ITNEC), 2017.
[60]
R. Mishra and R. Bharti, “AN ANALYSIS OF 10 GBITS/S OPTICAL TRANSMISSION SYSTEM USING FIBER BRAGG GRATING (FBG) and Double EDFA,” International Journal of Advanced Research in Computer Science, vol. 8, no. 8, 2017.
[61]
M. Rohit and M. G. Shah, “AN ANALYSIS OF 100 GBPS DATA TRANSMISSION IN A 16-CHANNEL WDM NETWORK USING FBG TO COMPENSATE DISPERSION OVER A FIBER ldots,” International Journal of Computer Engineering and Applications, vol. 11, no. 9, 2017.
[62]
M. K. Mathew, R. G. J. Valooran, and N. K. Vaegae, “An effective temperature monitoring scheme using ANN-based fiber Bragg grating sensor,” International Journal of Intelligent Engineering and Systems, vol. 10, no. 4, 2017.
[63]
Z. H. U. Jihu, X. Xuanlu, and L. U. O. Yuan, “An experiment teaching method based on the Optisystem simulation platform,” Education and Training in Optics and Photonics 2017, 2017.
[64]
A. Kar and N. K. Shukla, “An Introduction to an Optical Simulation Modeling Tool–Opti System,” Applications Of Statistical And Computational Softwares.
[65]
S. R. Abdollahi, T. J. Owens, and A. Ahmadinia, “An Optical Hard-Limiter for All-Optical Signal Processing,” 2017 UKSim-AMSS 19th International Conference on Modelling & Simulation, pp. 122–125, 2017.
[66]
A. Shah and P. Mankodi, “Analysis and simulation on gain flattening filter of an erbium doped fiber amplifier for multi-channel WDM system,” Proceedings of the 2017 International Conference on Wireless Communications, Signal Processing and Networking, WiSPNET 2017, vol. 2018-January, pp. 458–462, 2018.
[67]
D. Rajan, “Analysis Of 8 Channel WDM Network With EDFA,” International Journal of Scientific & Engineering Research, vol. 7, no. 12, pp. 1446–1449, 2016.
[68]
A. M. Hassan, A. Aboshosha, and M. B. E. Mashade, “Analysis of Gain and NF using Raman and hybrid RFA-EDFA Analysis of Gain and NF using Raman and hybrid RFA-EDFA,” Journal of Multidisciplinary Engineering Science and Technology (JMEST), vol. 4, no. 10, pp. 8482–8487, 2017.
[69]
S. Kenshil, G. Rashwan, and M. Matin, “Analysis of optical OFDM based wireless LAN,” 7th IEEE Annual Computing and Communication Workshop and Conference, CCWC 2017, January 9, 2017 – January 11, p. IEEE Las Vegas Section, 2017.
[70]
A. Sahu and V. V. Thakare, Analysis of Phase Noise and Gaussian Noise in terms of Average BER for DP 16-QAM Optical Coherent Receiver Using Digital Filters ., vol. 4. irjet.net, 2017.
[71]
S. Fuada, A. Pratama, and T. Adiono, “Analysis of Received Power Characteristics of Commercial Photodiodes in Indoor Los Channel Visible Light Communication,” International Journal of Advanced Computer Science and Applications, vol. 8, no. 7, 2017.
[72]
D. Patel, V. K. Singh, and U. D. Dalal, “Analysis of second order harmonic distortion due to transmitter non- linearity and chromatic and modal dispersion of optical OFDM SSB modulated signals in SMF-MMF fi ber links,” Optics Communications, vol. 383, pp. 294–303, 2017.
[73]
A. T. J., N. Kachare, K. Kalyani bai, and D. S. Kumar, “Analysis of simultaneous measurement of temperature and strain using different combinations of FBG,” AIP Conference Proceedings, vol. 020031, p. 020031, 2017.
[74]
S. Rajalakshmi, A. Srivastava, and A. Pandey, “Analysis of TDM and WDM PON using Different Coding Schemes for Extended Reach,” 3rd International Conference on Recent Development in Engineering Science, Humanities and Management, vol. 11, no. 7, pp. 171–177, 2011.
[75]
A. Marković, S. Panić, B. Jakšić, P. Spalević, and …, “Analysis of the influence of communication parameters of FSO channels on the reception quality,” The University Thought – Publication in Natural Sciences, vol. 7, no. 1, 2017.
[76]
L. Li, J. Zhang, E. Wu, Y. Zuo, Y. Zhang, and …, “Analysis of the influence of MachZehnder modulator on photodiode nonlinearity,” 2017 Opto-Electronics and Communications Conference (OECC) and Photonics Global Conference (PGC), 2017.
[77]
J. Karunya and P. Prakash, “Analysis of WDM system using DCF,” 2017 Fourth International Conference on Signal Processing, Communication and Networking (ICSCN), 2017.
[78]
P. Bajaj, A. K. Goel, and H. Singh, “Application of artificial neural networks for optimal design of OADM for DWDM applications,” Research Journal of Engineering and Technology, vol. 8, no. 2, 2017.
[79]
L. Zhao, W. Hu, and X. Zhang, “Architecture and performance of grouped ROADM rings with shared optical amplifier and grouped add/drop ports for hybrid data center network,” Optical Switching and Networking, vol. 23, pp. 1–4, 2017.
[80]
D. Patel, V. K. Singh, and U. D. Dalal, “Assessment of the DC Bias to Mitigate the Clipping Noise in DCO-OFDM, ACO-OFDM; and Non-linear Distortion of DFB Laser Transmitted through Dispersive Single Mode Fibers in IM/DD Systems,” Wireless Personal Communications, vol. 96, no. 1, pp. 341–360, 2017.
[81]
E. R. Thakur, BER Evaluation of FSO Link for different Duty Cycles of RZ pulse in different conditions of Rainfall, vol. 2. mecs-press.org, 2017.
[82]
S. Abdollahi, H. S. Al-Raweshidy, and T. J. Owens, “Binary-weighted photonic digital-to-analogue converter,” IET Optoelectronics, 2017.
[83]
A. Hamouda and K. Saouchi, “Breves generator of pulses at different flow rates (40 GHz, 80 GHz and 160 GHz),” Journal of New Technology and Materials, 2017.
[84]
B. Kaur, R. Kaur, and R. Singh, “Broadband Passive Optical Networks (BPON): A,” International Journal of Emerging Technologies in Engineering Research (IJETER), vol. 5, no. 7, 2017.
[85]
C. A. S. Fazlina, C. B. M. Rashidi, A. K. Rahman, and S. A. Aljunid, “Cardinality enhancement utilizing Sequential Algorithm (SeQ) code in OCDMA system,” EPJ Web of Conferences, vol. 162, 2017.
[86]
J. W. Luo, Y. X. Li, L. Shi, and Y. Xue, “Changes of quantum state of polarization in coexistence scheme of quantum-classical signal,” AOPC 2017: Fiber Optic Sensing and Optical Communications, 2017.
[87]
S. Yasear and A. Amphawan, “Channel impulse response equalization scheme based on particle swarm optimization algorithm in mode division multiplexing,” EPJ Web of Conferences, vol. 162, p. 01023, 2017.
[88]
S. R. Tahhan, M. H. Ali, and A. K. Abass, “Characteristics of Dispersion Compensation for 32 Channels at 40 Gb/s under Different Techniques,” Journal of Optical Communications, 2017.
[89]
Y. Geng, B. Wu, F. Wen, H. Zhou, X. Zhou, and K. Qiu, “Clock-pump four-wave-mixing-based multichannel all-optical regeneration in silicon waveguide,” Optical Engineering, vol. 56, no. 11, 2017.
[90]
K. Bikshalu and R. Srikanth, “Clustering Based Level Set Evaluation for Low Contrast Images,” International Journal of Electronics and Communication Engineering, vol. 11, no. 6, 2017.
[91]
G. Mahajan and H. Kaur, “Comparative Analysis of Dispersion Compensation Techniques for Hybrid WDM/TDM Passive Optical Network,” International Journal of Advanced Research in Computer Science, vol. 8, no. 4, 2017.
[92]
A. Sahu and V. V. Thakare, Comparative analysis of DP QPSK and DP 16-QAM Optical Coherent receiver, with taking in view the best analyses of the phase noise in terms of average BER ldots, vol. 4. irjet.net, 2017.
[93]
P. O. Idowu, O. W. Samuel, M. G. Asogbon, W. B. Wajeed, and T. M. Akinmoladun, “Comparative Study of Chirp in Direct and External Optical Modulation,” International Journal of Co mputer Science and Information Technology & Security (IJCSITS), vol. 7, no. 2, pp. 33–38, 2017.
[94]
M. Kaur and A. Mahajan, “Comparison of bidirectional BPON and MDM-PON system on distance, power, insertion losses and attenuation,” 2017 4th International Conference on Signal Processing and Integrated Networks (SPIN), 2017.
[95]
A. K. Abass, S. A. Adnan, B. K. Hadi, and M. A. Salih, “Comparison Of Discrete L ــ Band Raman Fiber Amplifier In Two Different Configurations,” ADVANCES in NATURAL and APPLIED SCIENCES, vol. 11, no. 9, pp. 224–229, 2017.
[96]
K. T. A. Sharma and K. Thakur, “Comparison of MDRZ, CSRZ and DRZ schemes using different Communiation Channels,” International Journal of Computer Applications, 2017.
[97]
U. Bhanja and S. Panda, “Comparison of novel coding techniques for a fixed wavelength hopping SAC-OCDMA,” Photonic Network Communications, vol. 33, no. 2, pp. 179–193, 2017.
[98]
K. L. Bhavani et al., “Compensation of Dispersion in Optical Communication Systems using DCF and FBG Methods,” International Journal of Innovative Research in Electrical, Electronics, Instrumentation and Control Engineering, pp. 25–29, 2017.
[99]
A. Sharma and S. Rana, “Comprehensive Study of Radio over Fiber with different Modulation Techniques – A Review,” International Journal of Computer Applications, vol. 170, no. 4, pp. 22–25, 2017.
[100]
B. M. Psaty, “Conflict of Interest , Disclosure ,” Security and Communication Networks, vol. 301, no. 14, pp. 2009–2011, 2010.
[101]
H. Sarangal, A. Singh, and J. Malhotra, “Construction and Analysis of a Novel SAC-OCDMA System with EDW Coding using Direct Detection Technique,” Journal of Optical Communications, 2017.
[102]
A. V. Andrianova, G. S. Voronkov, and …, “Corrective chirp adding for minimizing distortion in Radio-over-Fiber System fiber optic line,” 2017 International Siberian Conference on Control and Communications (SIBCON), 2017.
[103]
N. A. Albakay and L. Nguyen, “Coupling ratios design and their impact on the performance of binary driven QAM transmitters,” 2017 IEEE Avionics and Vehicle Fiber-Optics and Photonics Conference (AVFOP), 2017.
[104]
S. Wang and Y. Xie, “Crosstalk noise and performance analysis of WDM-based torus networks-on-chip,” Conference Program Digest – 7th International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale, IEEE 3M-NANO 2017, vol. 2018-January, pp. 284–288, 2018.
[105]
J. Kaur and M. Kaur, Design & investigation of 32 channel WDM-FSO link under different weather condition at 5 & 10 Gb/s, vol. 6. ijaiem.org, 2017.
[106]
S. Rebhi and M. Najjar, “Design and analysis of a 2Tb/s UDWDM system based on the combination of advanced modulation techniques and multi-diagonal code,” 2017 13th International Wireless Communications and Mobile Computing Conference, IWCMC 2017, pp. 2034–2038, 2017.
[107]
W. A. Imtiaz, A. Qamar, A. U. Rehman, H. Ali, A. R. Chaudhry, and J. Iqbal, “Design and Analysis of Self-Healing Tree-Based Hybrid Spectral Amplitude Coding OCDMA System,” Security and Communication Networks, vol. 2017, 2017.
[108]
M. Nazir, F. Arshad, and R. Asif, “Design and evaluation of power budget for a bidirectional CWDM-Passive Optical Network,” Proceedings of 2017 International Conference on Communication, Computing and Digital Systems, C-CODE 2017, pp. 38–43, 2017.
[109]
D. K. Choge, H.-X. Chen, B.-L. Tian, Y.-B. Xu, G.-W. Li, and W.-G. Liang, “Design and fabrication of lithium niobate based single mode Y-branch APE waveguide,” Proceedings of SPIE – The International Society for Optical Engineering, vol. 10457, 2017.
[110]
N. Rani, Design and Implementation of Various Advanced Modulation format over 8-WDM Bidirectional PON, vol. 3. ijariit.com, 2017.
[111]
S. Sabina and M. Kaur, “Design and Investigation of 32x40Gb/s WDM System based on Dispersion Compensation,” International Journal of Advanced Research in Computer Science, 2017.
[112]
M. T. Hannan, M. I. Reja, and J. Akhtar, “Design and performance analysis of 0.6 Tb/s 863nm VCSEL based optical link,” 2017 3rd International Conference on Electrical Information and Communication Technology (EICT), 2017.
[113]
A. Kaur, B. Kaur, and K. Singh, “Design and performance analysis of bidirectional TWDM-PON employing QAM-OFDM for downstream and re-modulation for upstream,” Optik, vol. 134, pp. 287–294, 2017.
[114]
J. Kaur, B. Kaur, and K. Singh, “Design and Performance Investigation of Intersatellite,” Wireless Personal Communications, vol. 94, no. 3, pp. 793–807, 2017.
[115]
E. Zahir, M. M. Rahman, and K. Ullah, “Design and simulation of 30 Gbps optical half-adder and half-subtractor using highly nonlinear fibers,” 2017 IEEE Region 10 Humanitarian Technology Conference (R10-HTC), 2017.
[116]
S. Das, R. Sen, S. Dutta, S. Banerjee, and …, “Design and simulation of all optical 4 to 2 priority encoder at 40Gbps using XGM in wideband travelling wave semiconductor optical amplifier without additional input ldots,” 2017 8th IEEE Annual Information Technology, Electronics and Mobile Communication Conference (IEMCON), 2017.
[117]
Y. Joshi and S. Malhotra, Design of an Optical Submarine Network With Longer Range And Higher Bandwidth, vol. 4. irjet.net, 2017.
[118]
P. Wei, H. Ge, and Y. Yang, “Design of edge filter demodulation system based on twin-core LPFG,” Second International Conference on Photonics and Optical Engineering, 2017.
[119]
C. Kandouci and A. Djebbari, “Design of new hybrid wavelength hopping/time spreading codes for optical CDMA by combining OCC and BIBD ZCC codes,” Optik, vol. 133, pp. 73–79, 2017.
[120]
M. Y. Muhsin, “Design Simulation of Raman Amplification Hybrid XGPON System with RZ and NRZ Data Format,” AL-MANSOUR JOURNAL, 2017.
[121]
N. Albakay, “Designing the Coupling Ratios in a Binary Driven 64-QAM Transmitter,” Laser Science, 2017.
[122]
M. Alshowkan and K. Elleithy, Deterministic and efficient three-party quantum key distribution, vol. 560. search.proquest.com, 2017.
[123]
S. S. Thapar and H. Sarangal, “Development of a New SAC-OCDMA ZCC Code System Using DWDM for Enhancing User Capacity,” International Journal, 2017.
[124]
H. A. Fadhil, “Development of GUI Temperature Monitoring System based on Thin-Film Optical Filter,” Journal of University of Babylon, 2017.
[125]
A. I. Elgamri, Development of Low Noise-Broadband Raman Amplification Systems Based on Photonic Crystal Fibers for High Capacity DWDM Networks. scholarworks.unr.edu, 2017.
[126]
E. A. Alyan and S. A. Aljunid, “Development of wireless optical CDMA system for biosignal monitoring,” Optik – International Journal for Light and Electron Optics, vol. 145, pp. 250–257, 2017.
[127]
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