OPTIWAVE

SPECTROPOL jest ekskluzywnym dystrybutorem kanadyjskiej firmy Optiwave, firmy z 30 letnim doświadczeniem w tworzeniu przełomowych narzędzi programowych dostosowanych do projektowania, symulacji i optymalizacji w stale rozwijających się obszarach nanotechnologii fotonicznej, optoelektroniki i sieci optycznych.

Oprogramowanie Optiwave to ponad 100 instytucji naukowych, badawczych i przemysłowych w 80 krajach na całym świecie.

OptiSystem: Kompleksowe Oprogramowanie do Projektowania Systemów Optycznych

 

W jakich obszarach ma zastosowanie OptiSystem?

Kompleksowe oprogramowanie do projektowania systemów optycznych to zaawansowany zestaw narzędzi zaprojektowany do pełnego rozwoju komponentów i systemów optycznych, umożliwiający inżynierom i naukowcom modelowanie, symulowanie i optymalizowanie skomplikowanych systemów optycznych. Oprogramowanie to obejmuje szeroki zakres zastosowań optycznych, w tym telekomunikację, optykę biomedyczną, włókna optyczne i projektowanie urządzeń fotoniki.

 

Popularne aplikacje

Jeśli jesteś w stanie to zwizualizować, nasze oprogramowanie do projektowania systemów optycznych jest w stanie to zasymulować.

OptiSystem umożliwia użytkownikom planowanie, testowanie i symulowanie (w dziedzinie czasu i częstotliwości):

 

Cechy charakterystyczne OptiSystem

Biblioteka Komponentów

Biblioteka Komponentów w OptiSystem zawiera setki komponentów, które pozwalają na wprowadzenie parametrów mierzonych z rzeczywistych urządzeń. Integruje się z urządzeniami testowymi i pomiarowymi różnych producentów i wspiera szeroki zakres projektów systemów komunikacji optycznej. Użytkownicy mogą dodawać nowe komponenty na podstawie podsystemów i bibliotek zdefiniowanych przez użytkownika lub korzystać z co-symulacji z narzędziami takimi jak MATLAB lub SPICE.

Integracja z Narzędziami Optiwave

To oprogramowanie do projektowania systemów optycznych pozwala na korzystanie z konkretnych narzędzi Optiwave dla optyki zintegrowanej i włókien optycznych na poziomie komponentów i obwodów: OptiSPICE, OptiBPM, OptiGrating i OptiFiber.

Reprezentacja Sygnałów Mieszanych

OptiSystem obsługuje formaty sygnałów mieszanych dla sygnałów optycznych i elektrycznych w Bibliotece Komponentów. OptiSystem oblicza sygnały za pomocą odpowiednich algorytmów związanych z wymaganym poziomem dokładności i efektywności symulacji.

Algorytmy Jakości i Wydajności

Aby przewidzieć wydajność systemu, OptiSystem oblicza parametry takie jak BER (Bit Error Rate) i Q-Factor, używając analizy numerycznej lub technik półanalitycznych dla systemów ograniczonych przez interferencję między-symbolową i szum.

Zaawansowane Narzędzia Wizualizacji

To oprogramowanie do projektowania systemów optycznych zawiera zaawansowane narzędzia wizualizacji, takie jak widma OSA, chirp sygnałowy, diagramy oka, stany polaryzacji, diagramy konstelacji i wiele innych. OptiSystem oferuje również narzędzia analizy WDM (Wavelength Division Multiplexing), które wyświetlają moc sygnału, zysk, wskaźnik szumów i OSNR (Optical Signal-to-Noise Ratio) dla każdego kanału.

Monitory Danych

Niezawodne narzędzia do projektowania systemów komunikacji optycznej muszą być elastyczne. Dzięki OptiSystem można wybrać porty komponentów do zapisywania danych i dołączyć monitory po zakończeniu symulacji. Pozwala to na przetwarzanie danych po symulacji bez konieczności ponownego obliczania. Można dołączyć dowolną liczbę wizualizatorów do monitora na tym samym porcie.

Hierarchiczna Symulacja z Podsystemami

Aby oprogramowanie do projektowania i symulacji systemów optycznych było elastyczne i wydajne, niezbędne jest dostarczenie modeli na różnych poziomach abstrakcji, w tym na poziomie systemu, podsystemu i komponentu. OptiSystem oferuje prawdziwą hierarchię definiowania komponentów i systemów, pozwalając na symulację o dowolnej szczegółowości w zależności od wymaganego poziomu dokładności.

Hierarchiczna Symulacja z Podsystemami

Aby oprogramowanie do projektowania i symulacji systemów optycznych było elastyczne i wydajne, niezbędne jest dostarczenie modeli na różnych poziomach abstrakcji, w tym na poziomie systemu, podsystemu i komponentu. OptiSystem oferuje prawdziwą hierarchię definiowania komponentów i systemów, pozwalając na symulację o dowolnej szczegółowości w zależności od wymaganego poziomu dokładności.

Nowoczesny Przepływ Danych Obliczeniowych

Harmonogram Obliczeń w naszym oprogramowaniu do projektowania systemów optycznych kontroluje symulację, określając kolejność wykonywania modułów komponentów zgodnie z wybranym modelem przepływu danych. Główny model przepływu danych, który odnosi się do symulacji warstwy transmisyjnej, to Component Iteration Data Flow (CIDF). Dziedzina CIDF używa harmonogramowania w czasie rzeczywistym, wspierając warunki, iteracje zależne od danych i prawdziwą rekurencję.

Strona Raportów

W pełni konfigurowalna strona raportu pozwala na wyświetlanie dowolnego zestawu parametrów i wyników dostępnych w projekcie, ułatwiając analizę projektów systemów komunikacji optycznej. Generowane raporty są organizowane w tabelach, tekstach oraz wykresach 2D i 3D, które można dostosowywać. Raporty obejmują także eksport do HTML i szablony z wstępnie sformatowanymi układami raportów.

Analiza kosztowa – Bill of Materials (BOM)

Jako oprogramowanie do projektowania systemów optycznych klasy przemysłowej, OptiSystem zapewnia tabelę analizy kosztów systemu, który jest projektowany, uporządkowaną według systemu, układu lub komponentu. Dane dotyczące kosztów można eksportować do innych aplikacji lub arkuszy kalkulacyjnych.

Dziedzina CIDF używa harmonogramowania w czasie rzeczywistym, wspierając warunki, iteracje zależne od danych i prawdziwą rekurencję.

Wielokrotne Układy

Można tworzyć wiele projektów przy użyciu tego samego pliku projektu, co pozwala na szybkie i efektywne tworzenie i modyfikowanie projektów. Każdy plik projektu OptiSystem może zawierać wiele wersji projektu. Wersje projektów są obliczane i modyfikowane niezależnie, ale wyniki obliczeń mogą być łączone między różnymi wersjami, co umożliwia porównanie projektów.

 

Charakterystyka OptiSystem

  • Biblioteka nadajników

    Biblioteka nadajników w OptiSystem oferuje szeroki wybór komponentów do projektowania różnorodnych systemów komunikacji optycznej. Zawiera ona źródła optyczne (Fabry-Perot, DFB, VCSEL), generatory impulsów sygnału elektrycznego i optycznego, modulatory optyczne (EA, MZ), modulatory elektryczne i koderów (QAM, PAM, FSK, OFDM) oraz generatory sygnałów wielomodowych (Laguerre-Gaussian, Hermite-Gaussian).

    Nasze oprogramowanie do projektowania systemów optycznych umożliwia wybór między zaawansowanymi modelami opartymi na fizyce lub pomiarach (empirycznymi) do modelowania statycznego i dynamicznego zachowania laserów półprzewodnikowych. Modele oparte na fizyce obejmują jednowymiarowe i dwuwymiarowe równania laserowe dla trybów wielomodowych, pozwalając projektantom na przełączanie się między modelami laserowymi opartymi na równaniach szybkości dla lasera masowego a metodą macierzy linii transmisyjnej (TLMM).

  • Biblioteka odbiorników

    Biblioteka odbiorników zawiera wszystkie niezbędne elementy do precyzyjnego modelowania podsystemów odbiorczych w systemach komunikacji optycznej. Komponenty obejmują regeneratory (odtwarzanie zegara/danych, 3R), elektroniczne korektory, detektory progowe, układy decyzyjne dla modulacji PSK/QAM, fotodetektory PIN i APD, demodulatory (OFDM, częstotliwościowe, fazowo-amplitudowe), dekodery (PAM, QAM, PSK, itp.) oraz narzędzia przetwarzania sygnału cyfrowego (DSP) dla systemów PSK i QAM o polaryzacji jedno- i dwukanałowej.

Zaawansowane, wysoce parametryzowane modele włókien optycznych, obsługiwane przez nasze oprogramowanie do projektowania systemów optycznych, mogą być wykorzystywane do charakteryzowania propagacji sygnałów w trybie jednomodowym i wielomodowym, w tym zaburzeń liniowych (dyspersja), stochastycznych (PMD) oraz nieliniowych (FWM, modulacja własnej fazy i modulacja fazy krzyżowej). Korzystając z dwukierunkowego komponentu włókna optycznego w OptiSystem, możliwe jest modelowanie i pomiar efektów rozpraszania Rayleigha, Brillouina i Ramana.

Odwiedź  blog Optiwave, aby dowiedzieć się więcej o modelowaniu rozpraszania Ramana w projektach systemów komunikacji optycznej.

OptiSystem oferuje szeroki zestaw modeli wzmacniaczy optycznych, zarówno w stanie ustalonym, jak i dynamicznym, w tym zaawansowane modele włókien domieszkowanych (Er, Er wielomodowe, Er-Yb, Yb, Yb wielomodowe, Tm, Pr) do szczegółowego projektowania wzmacniaczy światłowodowych. Wzmacniacze EDFA oraz EDFA typu „czarna skrzynka” (pomiar widma wzmocnienia, współczynnik szumów) wspierają projektowanie systemów sieci WDM.

Dostępne są również dynamiczne i średnie modele mocy Ramana oraz jednowymiarowe i dwuwymiarowe modele półprzewodnikowych wzmacniaczy optycznych (równania szybkości, fala podróżująca, TLMM). Dla projektowania odbiorników przewidziano wzmacniacze w domenie elektrycznej, takie jak wzmacniacze transimpedancyjne, automatycznej kontroli wzmocnienia oraz ograniczające.

Narzędzia do projektowania sieci obejmują modele idealne i nieidealne dla przełączników optycznych, multiplekserów, demultiplekserów, matryc falowodowych (AWG), złączy światłowodowych oraz emulatorów PMD.

OptiSystem dostarcza różnorodne filtry elektryczne i optyczne do symulacji projektowania podsystemów i systemów. Wśród dostępnych filtrów znajdują się standardowe funkcje filtrów (Bessel, Gaussowski, RC, Raised Cosine itp.), filtry cyfrowe IIR/FIR, filtry periodyczne, refleksyjne/FBG, filtry oparte na pomiarach, filtry oparte na parametrach S oraz akusto-optyczne. Filtry te są kluczowe dla projektowania komercyjnych systemów komunikacji optycznej.

OptiSystem oferuje szeroki wybór optycznych i elektrycznych komponentów pasywnych, które mogą być używane do budowy różnych projektów komponentów i podsystemów. Urządzenia optyczne obejmują tłumiki, sprzęgacze, rozdzielacze i łączniki, kontrolery polaryzacji, reflektory, krany, izolatory i cyrkulatory. Urządzenia elektryczne obejmują hybrydowe sprzęgacze 180 i 90 stopni, bloki DC, dzielniki mocy i łączniki, a także linie transmisyjne RF.

Nasze oprogramowanie umożliwia także projektantom wykorzystanie danych pomiarowych do charakteryzowania funkcji transferu urządzeń, w tym macierzy rozpraszania (S) dla małych sygnałów oraz macierzy Jonesa.

OptiSystem oferuje narzędzia do przetwarzania sygnałów optycznych, elektrycznych i binarnych. Funkcje i operacje obejmują generatory napięcia polaryzacyjnego, wzmocnienie, dodawanie i odejmowanie sygnałów, normalizatory, różniczkowanie i całkowanie sygnałów elektrycznych, próbkowanie w dół, konwertery szeregowo-równoległe i równolegle-szeregowe, przerzutniki elektryczne oraz operatory logiczne elektryczne/binarnie.

OptiSystem zawiera specjalistyczne komponenty do projektowania systemów optycznych, które umożliwiają modelowanie kanałów optycznych w wolnej przestrzeni (charakterystyki anten, propagacja w atmosferze) oraz analizę przestrzenną sprzężenia sygnałów wielomodowych między urządzeniami (generatory wielomodowe, złącza przestrzenne, cienkie soczewki, wizualizatory przestrzenne).

Narzędzia do wizualizacji i analizy po symulacji w projektowaniu systemów komunikacji optycznej obejmują zestawy i analizatory testowe BER, analizatory diagramów oka, analizatory widma, oscyloskopy, przeglądarki czasowe sygnałów optycznych, mierniki mocy, analizatory polaryzacji, wizualizatory przestrzenne, analizatory strumienia okrągłego, analizatory DMD, analizatory fotoniczne oraz ekstraktory parametrów S.

 

Video – Poznaj OptiSystem

Nagrodzona Jakość

Doskonalenie to nie tylko słowa, to potwierdzone uznanie. OptiSystem jest nieustannie doceniany przez ekspertów branżowych za swoje nowatorskie podejście i niezrównane możliwości, co ugruntowało jego pozycję jako wiodącego oprogramowania do projektowania systemów optycznych w dziedzinie fotoniki.

 

Aplikacje OptiSystem

Poniżej znajduje się lista wybranych publikacji naukowych, czasopism technicznych, periodyków oraz materiałów konferencyjnych, które odnoszą się do wykorzystania oprogramowania OptiSystem. Te odniesienia zostały zebrane z wewnętrznych źródeł, artykułów nadesłanych przez klientów oraz publikacji naukowych z Google Scholar. Według naszej najlepszej wiedzy, wszystkie te prace korzystają z pakietu oprogramowania OptiSystem. W przypadku zauważenia jakichkolwiek błędu, prosimy o natychmiastowy kontakt na adres info@spectropol.pl lub info@optiwave.com.

  1. Analysis an optical communications system by using Optisystem program to transfer data over various distances https://www.techniumscience.com/index.php/technium/article/view/9738
  2. Optical communication system (OptiSystem) software enabling remote education and teaching https://opg.optica.org/abstract.cfm?uri=ETOP-2023-1272304
  3. QKD Over FSO Under Different Weather Conditions Using OptiSystem Software https://ieeexplore.ieee.org/abstract/document/10223140/
  4. The Detailed Study of Soliton Transmission Using Optisystem https://www.researchgate.net/profile/Ridheyjot-Kaur/publication/374313375_The_Detailed_Study_of_Soliton_Transmission_Using_Optisystem/links/651819b53ab6cb4ec6ae486d/The-Detailed-Study-of-Soliton-Transmission-Using-Optisystem.pdf
  5. Machine Learning approach for predicting suitable wavelengths in OFDM-FSO system https://ieeexplore.ieee.org/abstract/document/10086914/
  6. Design and simulation of secure fiber optic communication system utilizing hill cipher algorithm https://doi.org/10.1007/s12596-023-01313-8
  7. Modeling of Free-Space Optical Communications in Aviation https://ieeexplore.ieee.org/abstract/document/10223780/
  8. Highly nonlinear tellurite photonic crystal fiber for supercontinuum generation: Design and quantitative performance analysis https://www.sciencedirect.com/science/article/pii/S1110016823008360
  9. Numerical Simulation for Air-to-Water FMCW Lidar for Low Transmitting Power Drone-Based Bathymetry https://opg.optica.org/abstract.cfm?uri=LS-2023-JM7A.77
  10. Performance improvements of a VLC system, in a V2X context, using a different multiplexing technique http://telkomnika.uad.ac.id/index.php/TELKOMNIKA/article/view/24042
  11. Design and analysis of 50 channel by 40 Gbps DWDM RoF system for 5G communication based on Fronthaul scenario https://doi.org/10.1063/5.0121879
  12. Simulation of Optical ISL with 48 Transponders and Performance Analysis Using Ber and Q-Factor  https://doi.org/10.1515/joc-2019-0014
  13. Performance Analysis of FSO Communication System Using NRZ-MSK-PSK Hybrid Modulation Techniques https://ieeexplore.ieee.org/abstract/document/10263640/
  14. Simulation research on adaptive nulling technology based on wavelength selective switching delay network https://doi.org/10.1117/12.2690201.short
  15. Dispersion compensation using cascaded apodized CFBGs under MTDM transmission technique: Enhanced system performance https://doi.org/10.1007/s11082-022-04132-6
  16. Performance Evaluation of 32 Channel Wavelength Division Multiplexed Radio over Fiber (RoF) Communication System https://ieeexplore.ieee.org/abstract/document/10177097/
  17. Analysis of underwater fiber optic communication path planning using DWDM technology https://pubs.aip.org/aip/acp/article/2601/1/020037/2894147
  18. Modelling and Performance Analysis of Asymmetrical Triple Micro-optical Ring Resonator as an Optical Filter”, 2023 World Conference on Communication … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10235137/
  19. Optical fiber systems performance signature based on dispersion compensated methods in dense wavelength division multiplexing systems https://doi.org/10.1007/s12596-023-01454-w
  20. Design of time division multiplexing/wavelength division multiplexing passive optical network system for high-capacity network https://www.academia.edu/download/103187677/56_28900_EM_R.pdf
  21. Performance Analysis of Fiber Attenuation in Passive Optical Networks http://section.iaesonline.com/index.php/IJEEI/article/view/4919
  22. Analysis of a Free-Space Optical Communication System https://ieeexplore.ieee.org/abstract/document/10223861/
  23. Wideband SOA fiber-to-fiber gain and saturation output power in the C-band: impact of characteristic parameters https://doi.org/10.1007/s11082-023-04786-w
  24. Indoor Positioning System Using LiFi Based Network for Mobile Robots https://ieeexplore.ieee.org/abstract/document/10146643/
  25. Design and simulation of optical chaotic-based secure hybrid optical communication system https://doi.org/10.1007/s12596-023-01143-8
  26. Photonic matched filter based broadband DSSS system https://doi.org/10.1117/12.2651959.short
  27. Research on all-optical wavelength conversion technology based on dual-pumped FWM https://doi.org/10.1117/12.2668013.short
  28. Design and analysis of high‐speed four‐channel WDM Radio over Fiber system for Millimeter-wave applications https://doi.org/10.1007/s13198-020-01051-1
  29. Performance Evaluation Of Lifi-OCDMA System Using ZCC Code https://ieeexplore.ieee.org/abstract/document/10112786/
  30. Construction of Fiber Optical Communication System Infrastructure for 3T (Terdepan, Terluar dan Tertinggal) Areas Using Fiber to the Area Network System http://influence-journal.com/index.php/influence/article/view/167
  31. Performance Enhancement of WDM-RoFSO Communication System under Different Weather Conditions https://ieeexplore.ieee.org/abstract/document/10157005/
  32. Performance analysis of a 48-channel DWDM using SMF at various power levels and frequency spacing https://pubs.aip.org/aip/acp/article/2804/1/020012/2910278
  33. Characterization of wideband semiconductor optical amplifier: numerical analysis and simulation https://doi.org/10.1007/s11082-023-04575-5
  34. Cascaded two-stage optical regenerator based on four wave mixing in highly nonlinear fiber. https://doi.org/10.1088/1742-6596/2432/1/012007
  35. Enhancing performance of optical chaotic-based secure fiber-optic communication system https://doi.org/10.1007/s11082-023-04757-1
  36. Performance Evaluation Using Different Fiber Bragg Grating for High-Speed Optical Communication. https://search.ebscohost.com/login.aspx?direct=true&profile=ehost&scope=site&authtype=crawler&jrnl=15530396&AN=166096044&h=E0%2BFBb1X0nB39i9Ft%2FAipQT3ZE8F4hc8be4Kg3kJEQMCqg73J2aESjHUAi1ue2ln8Ikg8xkg1F9RUMF2w%2F9UBw%3D%3D&crl=c
  37. Design and Performance Analysis of Simple WDM Optical Fiber Communication System https://mjfas.utm.my/index.php/mjfas/article/view/2990
  38. Design of a WDM system with radio over free space optics for 5G fronthaul networks in an urban area https://ieeexplore.ieee.org/abstract/document/10269185/
  39. Modeling of Four-Wave Mixing in Optical Multiplexing Networks with Wavelength Division Multiplexing https://ieeexplore.ieee.org/abstract/document/10347870/
  40. Evaluation of an Optical Fiber Bragg Grating as a Strain Sensor https://www.researchgate.net/profile/Aruna-Tripathy-2/publication/369386096_Evaluation_of_an_Optical_Fiber_Bragg_Grating_as_a_Strain_Sensor/links/6419cd82a1b72772e41768a5/Evaluation-of-an-Optical-Fiber-Bragg-Grating-as-a-Strain-Sensor.pdf
  41. Modelling and Performance Analysis of 2× 2 Asymmetrical Quadrapule Micro-optical Ring Resonator as an Optical Filter https://ieeexplore.ieee.org/abstract/document/10353346/
  42. Design and implementation of cipher algorithm based secure optical communication system https://doi.org/10.1007/s11082-022-04354-8
  43. Design and performance investigation of a coherent optical system based multi-band OFDM with various indexes https://doi.org/10.1515/joc-2023-0237
  44. Performance Comparison Among Different Chirping Methods of Fiber Bragg Grating for Dispersion Compensation https://ieeexplore.ieee.org/abstract/document/10347299/
  45. Design and simulation of 40 GHz–WDM communication system-based optical frequency comb generator https://doi.org/10.1007/s12596-023-01177-y
  46. Performance Analysis of various Pre-Equalization techniques for Visible Light Communication https://www.researchsquare.com/article/rs-2571714/latest
  47. 4× 4 MIMO Fiber-Wireless System with RoF Transmission Capability https://www.itm-conferences.org/articles/itmconf/abs/2023/04/itmconf_I3cs2023_02005/itmconf_I3cs2023_02005.html
  48. Performance analysis of TDM PON system for 128 users using RZ and NRZ modulations https://doi.org/10.1504/IJCAET.2023.127791
  49. Implementation of 23 Gbps optical wireless link for 750 km inter-aircraft communications https://doi.org/10.1088/2631-8695/acbd89
  50. Erbium-Doped Fiber Amplifier (EDFA) Dispersion Compensation Technique For Multimode Fibe http://www.jmest.org/wp-content/uploads/JMESTN42354249.pdf
  51. Signal Quality Improvement in Optical Communication at Varying Bit Rates using Machine Learning: A Preliminary Study https://ieeexplore.ieee.org/abstract/document/10302869/
  52. Enhanced dispersion reduction using apodized uniform fiber Bragg grating for optical MTDM transmission systems https://doi.org/10.1007/s11082-022-04339-7
  53. Design and analysis of SOA-MZI based optical digital circuits for high speed optical networks https://www.sciencedirect.com/science/article/pii/S2772671123001845
  54. PASSIVE OPTICAL NETWORK: A FIBRE TO THE ‘X’APPROACH https://electroscopejournal.org.ng/index.php/ej/article/view/4
  55. Performance Evaluation of Hybrid FSO/RF Link Under NRZ Modulation Format https://doi.org/10.1007/978-981-19-9512-5_13
  56. End-to-End Learning for Free Space Optical Communication with BiLSTM-based Channel Model  https://ieeexplore.ieee.org/abstract/document/10211249/
  57. Performance analysis of multiple-beam WDM free space laser-communication system using homodyne detection approach https://www.cell.com/heliyon/pdf/S2405-8440(23)00532-7.pdf
  58. Characteristics Analysis of Hybrid Optical Amplifier with Doped Fiber Variations for Fiber Optic Communications Network https://doi.org/10.1088/1742-6596/2623/1/012022
  59. Performance Analysis of the WDM Schemes for RoF System with Various Bit Rate https://www.ojs.uma.ac.id/index.php/jite/article/view/8263
  60. Design and performance analysis of optical communication system utilizing optical chaos https://doi.org/10.1007/s12596-023-01401-9
  61. Impact of fiber Bragg grating as dispersion compensator on optical communication systems https://pubs.aip.org/aip/acp/article/2804/1/020009/2910275
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  262. HK Manea, YN Molood, Q Al-Jubouri and …, “A Comparative Study of Plastic and Glass Optical Fibers for Reliable Home Networking”, ECS Journal of Solid … (iopscience.iop.org, 2023), https://doi.org/10.1149/2162-8777/acd1ac
  263. MM Abdulwahid and S Kurnaz, “Implementation of two polarization DQPSK WDM Is-OWC system with different precoding schemes for long-reach GEO inter Satellite link”, International Conference on Green … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10269211/
  264. D Sen, K Kaur, MS Bhamrah and R Kaur, “Design of OMCG based high capacity hybrid passive optical network (PON) and FSO system employing three SOPs/λ”, Journal of Optical … (degruyter.com, 2023), https://doi.org/10.1515/joc-2023-0170
  265. Z Abdellaoui and H MEDDEB, “Giga Passive Optical Network GPON over Fiber To The Home FTTH: Design, Implementation and Evaluation” (researchsquare.com, 2023), https://www.researchsquare.com/article/rs-1789754/latest
  266. AM de Souza, CLMP Plazas, DR Celino and …, “Double‐RSOA colorless WDM‐PON for 5G fronthaul applications”, Transactions on … (Wiley Online Library, 2023), https://doi.org/10.1002/ett.4694
  267. M Alhalabi, N Taşpınar and FI El-Nahal, “Bidirectional intensity modulated/direct detection optical OFDM WDM-PON system”, Optoelectronics Letters (Springer, 2023), https://doi.org/10.1007/s11801-023-2126-x
  268. SK Jalal and RZY Al-Maqdici, “Radio over fiber system-based direct modulation VCSEL optical source”, Journal of Optics (Springer, 2023), https://doi.org/10.1007/s12596-023-01224-8
  269. K Zhu, S Wei, Y Li, Y Li, Y Wang and …, “Quantum Noise Stream Cipher Scheme with Triangular Quadrature Amplitude Modulation and Secret Probabilistic Shaping”, Journal of Lightwave … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10268604/
  270. C Kumar, “Impact of various optical amplifiers on the performance of duobinary and modified duobinary modulated 460 channels ultra-dense WDM system”, Journal of Optics (Springer, 2023), https://doi.org/10.1007/s12596-023-01493-3
  271. N Kathpal, AK Garg, P Goyal and YK Awasthi, “Design of 16× 100 Gbps free-space optical system using advanced modulation techniques”, Journal of Optics (Springer, 2023), https://doi.org/10.1007/s12596-022-01072-y
  272. Y Liu, C Li and Y Lu, “Construction and performance analysis of variable weight zero cross correlation Latin square code for spectral amplitude coding OCDMA systems”, Optoelectronics Letters (Springer, 2023), https://doi.org/10.1007/s11801-023-2120-3
  273. S Boynukalin, S Paker and A Atieh, “Investigation of Hybrid Remote Fiber Optic Sensing Solutions for Railway Applications”, Photonics (mdpi.com, 2023), https://www.mdpi.com/2304-6732/10/8/864
  274. C Du, D Wang, Y Ding and W Dong, “Optimization of UWB-over-fiber system transmission performance”, … and Applications 2022; and … (spiedigitallibrary.org, 2023), https://doi.org/10.1117/12.2656441.short
  275. M Kaushik, JS Sidana, S Kumar and …, “PERFORMANCE ANALYSIS OF PHOTONICS-BASED RF TRANSCEIVER FOR HIGH-SPEED DATA TRANSMISSION.”, I-Manager’s Journal … (search.ebscohost.com, 2023), https://search.ebscohost.com/login.aspx?direct=true&profile=ehost&scope=site&authtype=crawler&jrnl=23497912&AN=164559230&h=Lxmy856QTNRvrhUk3Dy9QfhJMPIixbOY%2FAqzbq70Hx1IEL48WKJ%2BBqkQRSe3Ix58dhdQRQPeToZBPkIZYauHiA%3D%3D&crl=c
  276. R Kuang and A Chan, “Quantum encryption in phase space with displacement operators”, EPJ Quantum Technology (epjqt.epj.org, 2023), https://doi.org/10.1140/epjqt/s40507-023-00183-0
  277. L Graini, I Hamamdia and …, “SDM over FSO Link using 2um Laser Beam under Atmospheric Turbulences”, 2023 IEEE 3rd International … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10169458/
  278. SA Abd El-Mottaleb, M Singh, HY Ahmed and …, “Performance evaluation of a 160-Gbit/s OCDMA-FSO system via Laguerre-Gaussian beams under weather conditions”, Alexandria Engineering … (Elsevier, 2023), https://www.sciencedirect.com/science/article/pii/S1110016822007669
  279. N Jihad and M Abd Almuhsan, “Evaluation of impairment mitigations for optical fiber communications using dispersion compensation techniques”, Rafidain J. Eng. Sci (iasj.net, 2023), https://www.iasj.net/iasj/download/3041ff02bc05a0ba
  280. YK Gupta and A Goel, “EDFA Controlled Spectral Efficient MIMO Free Space Optic Links for Mitigation of Climatic Turbulence Conditions”, Wireless Personal Communications (Springer, 2023), https://doi.org/10.1007/s11277-023-10732-6
  281. M Kumari, “Performance analysis of VLC based Intelligent Transportation System”, 2023 International Conference on Emerging Smart … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10099691/
  282. A Gill, G Gnanagurunathan, N Khan and …, “Absolute Added Correlative Coding using APDs for LEO-LEO OISLs”, 2023 International … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10323750/
  283. S Jagdale, SB Deosarkar, SL Nalbalwar and B Iyer, “Measurement, Evaluation, and Performance of 60 Gbps DPSK WDM Free Space Optical Link for Haze and Rain Conditions”, Mapan (Springer, 2023), https://doi.org/10.1007/s12647-023-00622-4
  284. H Hamadouche, B Merabet and …, “Performance analysis of WDM PON systems using PIN and APD photodiodes”, International Journal of … (inderscienceonline.com, 2023), https://doi.org/10.1504/IJCAET.2023.127785
  285. A Hayder and I Abdullah, “Raman Amplification for Nonlinearity Compensation in a Fiber Optic Link by Optical Phase Conjugation System”, Kerbala Journal for Engineering Science (iasj.net, 2023), https://www.iasj.net/iasj/download/4f0634ba9b37cc05
  286. HM Obaid, H Shahid, A Akram and M Zafrullah, “Performance analysis of a hybrid optical amplifier based 480-Gbps DWDM-FSO system under the effect of different atmospheric conditions” (researchsquare.com, 2023), https://www.researchsquare.com/article/rs-3250813/latest
  287. S Kumar, Payal and P Sharma, “Performance comparison of different optical amplifiers in mitigating the attenuation effects in FSOC”, Journal of Optics (Springer, 2023), https://doi.org/10.1007/s12596-023-01238-2
  288. E Vasani and V Shah, “Spectrum Slicing-Based Performance Analysis of Free Space Optical Communication Under Atmospheric Turbulence”, Journal of The Institution of Engineers (India): Series B (Springer, 2023), https://doi.org/10.1007/s40031-022-00832-5
  289. KP Kumar and TS Reddy, “Designing and performance analysis of a high-speed integrated fibre/FSO transmission system enabled by space-division-multiplexing for last-mile connectivity”, Optical and Quantum Electronics (Springer, 2023), https://doi.org/10.1007/s11082-023-04837-2
  290. M Kumari, “Modeling of IoT based High-Speed Hybrid Fiber-Optical Wireless Communication System”, 2023 International Conference on Intelligent Data … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10053482/
  291. S Khare, AK Garg, A Phophaliya, V Janyani and …, “Ring-Based Hybrid GPON Network with Inter-oNU Transmission Capability”, … Conference on Intelligent … (Springer, 2023), https://doi.org/10.1007/978-981-99-4725-6_7
  292. S Roy and AK Buchke, “Investigating the Effectiveness of Free Space Optics in Central Indian State of Madhya Pradesh: A Performance Evaluation”, … on Smart Systems for applications in … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10200275/
  293. S Parkash, A Banga and D Kumar, “Performance enhancement of DWDM-FSO system under diverse weather conditions with optimized modulation”, Int. J Eng. Appl. Sci (ijeast.com, 2023), https://www.ijeast.com/papers/147-155,%20Tesma0709.pdf
  294. A Kumari, A Kumar and GST Reddy, “Performance analysis of the coherent FMCW photonic radar system under the influence of solar noise”, Frontiers in Physics (frontiersin.org, 2023), https://doi.org/10.3389/fphy.2023.1215160
  295. S Sharma, GK Walia and H Kaur, “A multichannel Hermite Gaussian (HG) intensity profiles based inter-satellite optical wireless communication (IsOWC) using transmitter diversity”, Optical and Quantum Electronics (Springer, 2023), https://doi.org/10.1007/s11082-022-04383-3
  296. AHA Kareem and IA Murdas, “Performance evaluation of fiber impairment mitigation for high capacity communication systems using optical compensation method”, Results in Optics (Elsevier, 2023), https://www.sciencedirect.com/science/article/pii/S2666950123000512
  297. B Gul and F Ahmad, “1.28 Tbps DWDM optical network design using a dispersion compensating distributed Raman amplifier over S-band”, Opto-Electronics Review (journals.pan.pl, 2023), https://journals.pan.pl/Content/127476/PDF/OPELRE_2023_31_2_B_Gul.pdf
  298. A Chan, M Khalil, KA Shahriar, DV Plant, LR Chen and …, “Encryption in phase space for classical coherent optical communications”, Scientific Reports (nature.com, 2023), https://www.nature.com/articles/s41598-023-39621-5
  299. V Singh, KSR Meena and M Singh, “Simulation of Radio over Fiber System for Microwave Signal Generation using Sub-Carrier Modulation Technique”, 2023 IEEE International … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10234776/
  300. JO Bandele, AO Salau, M Mangwala and …, “Multiple Transmitters for Gain Saturated Pre-Amplified FSO Communication Systems Limited by Strong Atmospheric Turbulence and Pointing Error”, IEEE Access (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10273678/
  301. HM Obaid, H Shahid, M Zafrullah, M Ali and …, “Gain flattened S+ C+ L-band bidirectional thulium doped fiber/multi-section fiber optical parametric hybrid amplifier”, Ain Shams Engineering … (Elsevier, 2023), https://www.sciencedirect.com/science/article/pii/S2090447923003866
  302. XM Lv, “Software defined network communication systems and detection of optic device anamoly based on multi-layer architectures”, Optical and Quantum Electronics (Springer, 2023), https://doi.org/10.1007/s11082-023-05402-7
  303. K Singh, SK Arya and V Kumar, “Performance enhancement of duobinary modulation-based DWDM system using particle swarm optimization”, Journal of Optical Communications (degruyter.com, 2023), https://doi.org/10.1515/joc-2022-0308
  304. BVR Jayamaruthi, G Muralimohan and …, “Developing a subsea valve automation system using fiber optic umbilical”, AIP Conference … (pubs.aip.org, 2023), https://pubs.aip.org/aip/acp/article/2946/1/030002/2920571
  305. M Kumari, “Modeling of disaster resilience 5G fronthaul/backhaul hybrid ring-mesh topology based PON/FSO system using 2D-modified FRS code”, Optical and Quantum Electronics (Springer, 2023), https://doi.org/10.1007/s11082-023-05398-0
  306. M Kumari, “Modeling of Green Communication based VLLC system”, 2023 2nd International Conference on Smart … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10151593/
  307. A Lubana and S Kaur, “Investigation of MDRZ and DPSK modulation schemes employed in DWDM systems for smart city 5G access networks”, Journal of Nonlinear Optical Physics &Materials (World Scientific, 2023), https://doi.org/10.1142/S021886352350056X
  308. GUO Li-jun and TAN Zhong-wei, “Spectral Analysis based on Stimulated Brillouin Scattering Effect.”, Study on Optical … (search.ebscohost.com, 2023), https://search.ebscohost.com/login.aspx?direct=true&profile=ehost&scope=site&authtype=crawler&jrnl=10058788&AN=161290621&h=By8QyuFXlWxDKpLqvF5uAbmjYasBpCs0XaFSO1smG2ax8BP3fXpCsKagi%2B7Ns3Li3wpmNb5Df6UDbrayJeK1vg%3D%3D&crl=c
  309. F Kanwal, KK Qureshi, WA Imtiaz, A Ul Haq and J Mirza, “A Secure Optical Body Area Network Based on Free Space Optics and Time-Delayed 2D-Spectral/Spatial Optical CDMA”, Applied Sciences (mdpi.com, 2023), https://www.mdpi.com/2076-3417/13/16/9347
  310. M Singh, A Métwalli, HY Ahmed, M Zeghid and …, “K-nearest neighbor model for classification between four different Hermite gaussian beams in MDM/FSO systems under rainy weather”, Optical and Quantum … (Springer, 2023), https://doi.org/10.1007/s11082-023-05229-2
  311. SH Alnajjar and HM Mahmoud, “Internet of Things Utilizing Light Fidelity Technology: A Review”, Al-Iraqia Journal for Scientific … (ijser.aliraqia.edu.iq, 2023), https://ijser.aliraqia.edu.iq/index.php/ijser/article/view/115
  312. V Agarwal, “Ultrafast All Optical Parity Generator and Checker Based on Quantum dot Semiconductor Optical Amplifier”, IETE Journal of Research (Taylor &Francis, 2023), https://doi.org/10.1080/03772063.2023.2204834
  313. IK Balero-Lozada, CA Pérez-Mateus and …, “Optical Transport Architecture for the Fronthaul Segment in a 5G NR Network based on Polarization and Wavelength Multiplexing”, Revista Facultad de … (revistas.uptc.edu.co, 2023), https://revistas.uptc.edu.co/index.php/ingenieria/article/view/16054
  314. SK Jalal and RZY Al-Maqdici, “160-Gbps-8-port WDM PON-based RZ coder with vertical cavity surface-emitting laser (VCSEL) and CW laser”, Journal of Optics (Springer, 2023), https://doi.org/10.1007/s12596-023-01433-1
  315. R Sharma, H Singh, B Goyal and …, “Performance evaluation of high-speed integrated fiber-free space optics transmission enabled by DP-32-QAM signals for last mile access networks”, 2023 Third International … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10176679/
  316. MY Wani, H Pathak, K Kaur and A Kumar, “Free space optical communication system under different weather conditions”, Journal of Optical … (degruyter.com, 2023), https://doi.org/10.1515/joc-2019-0064
  317. S Ghatwal and H Saini, “A hybrid FSO/RF communication system with DSP for long haul communication”, Journal of Optical Communications (degruyter.com, 2023), https://doi.org/10.1515/joc-2023-0242
  318. M Prajapat, KK Choure, PP Devi and …, “Realization of SWAP Gate using Electro-Optic Phenomenon-based Mach-Zehnder Interferometer”, 2023 1st International … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10127135/
  319. A Sharma, V Mishra, K Singh and …, “Hybrid RoF-RoFSO system for broadband services by incorporating polarization division multiplexing scheme”, Journal of Optical … (degruyter.com, 2023), https://doi.org/10.1515/joc-2023-0309
  320. HM Razaq and WK Saad, “Performance Analysis of NG-PON2 with DWDM-FSO System with Eight Wavelengths and 80Gbps Data Rate”, 2023 10th International Conference on … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10322992/
  321. Z Wang, D Yang, F Yang, Y Wang and …, “Design and analysis of an optical frequency comb structure based on a lithium niobate thin film”, … Conference (CITA 2023 … (spiedigitallibrary.org, 2023), https://doi.org/10.1117/12.2691791.short
  322. S Sachdeva and M Sindhwani, “A 100 Gbps Inter-Satellite Optical Wireless System (Is-OWC) Using PDM-SZCC Codes”, … of the International Conference on Small … (Springer, 2023), https://doi.org/10.1007/978-981-19-8555-3_13
  323. H Azzahhafi, M El Yahyaoui, A El Moussati and …, “Enhanced 4× 4 MIMO RoF architecture for 5G mmWave indoor applications at 60 GHz unlicensed band”, Optics … (Elsevier, 2023), https://www.sciencedirect.com/science/article/pii/S0030401823000111
  324. X Li, T Yan and Y Tan, “Providing a method to stabilize the laser output light intensity for optical telecommunication systems”, Journal of Optics (Springer, 2023), https://doi.org/10.1007/s12596-023-01332-5
  325. SK Jalal and RZY Al-Maqdici, “Enhanced performance of 32 GHz up to 200 km vertical cavity surface emitting laser (VCSEL) for fronthaul radio over fiber system”, Arabian Journal for Science and Engineering (Springer, 2023), https://doi.org/10.1007/s13369-022-07225-2
  326. PN Patel and AS Goteti, “Performance Analysis of MultiUser MIMO Indoor Visible Light Communication Systems”, 2023 2nd International Conference on … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10136075/
  327. G Liu, S Chen and F Li, “Blended and Integrated Teaching of Theory, Simulation and Practice of Measurement and Control Circuit Course”, 3rd International Conference on Internet … (atlantis-press.com, 2023), https://www.atlantis-press.com/proceedings/ieit-23/125990679
  328. A Belkacem and AR Borsali, “A new full-duplex analog RoF transmission system for 5G/5G+ broadband mobile communication”, Journal of Electrical Engineering (sciendo.com, 2023), https://doi.org/10.2478/jee-2023-0001
  329. NI Hamadamen, “Loss Mitigation and Digital Fiber Communication System Construction”, researchgate.net, https://www.researchgate.net/profile/Nawroz-Hamadamen/publication/370498026_Loss_Mitigation_and_Digital_Fiber_Communication_System_Construction/links/6453798a5762c95ac36fc42f/Loss-Mitigation-and-Digital-Fiber-Communication-System-Construction.pdf
  330. A Armghan, M Singh, K Aliqab, F Alenezi and …, “Performance analysis of high-speed integrated OAM-OCDMA transmission in FSO communication link: Impact of weather attenuation”, Optical and Quantum … (Springer, 2023), https://doi.org/10.1007/s11082-022-04487-w
  331. H Singh, N Mittal and KA Ogudo, “Optimizing the receiver aperture parameters of free space optical (FSO) link for performance enhancement”, AIP Conference Proceedings (pubs.aip.org, 2023), https://pubs.aip.org/aip/acp/article/2495/1/020030/2917881
  332. S Afifah, A Wijayanto, YL Liu, SK Liaw, PJ Lee, CH Yeh and …, “Study on Temperature and Water Turbulence Impact on Saline Water-Based Wireless Optical Communication”, Photonics (mdpi.com, 2023), https://www.mdpi.com/2304-6732/10/4/383
  333. Y Lu, C Yao, W Ma, T Fu, B Yu, J Zhang and M Bi, “A novel smooth PON evolution based on signal cancellation”, Optical Fiber Technology (Elsevier, 2023), https://www.sciencedirect.com/science/article/pii/S106852002300202X
  334. VV Garbhapu, C Ware and …, “Physical-layer-aware network simulator for future optical functionalities”, 2023 14th International … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10302753/
  335. A Choudhary and NK Agrawal, “Designing of high-speed inter-satellite optical wireless communication (IsOWC) system incorporating multilevel 3-D orthogonal modulation scheme”, Journal of Optics (Springer, 2023), https://doi.org/10.1007/s12596-022-01090-w
  336. S Malik and PK Sahu, “Design and Performance Study of Free Space Optical Communication System”, 2023 International Conference on … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10165952/
  337. A Grover and A Sheetal, “Performance Analysis of 20 Gbit/s–40 GHz MDM-Ro-FSO Link Incorporating DPSK Modulation Scheme”, Journal of Optical Communications (degruyter.com, 2023), https://doi.org/10.1515/joc-2019-0237
  338. S Sachdeva, S Kaur, R Arora, M Sindhwani, P Rasane and …, “Simulation of an ultrahigh capacity free space optical (FSO) communication system incorporating hybrid WDM-CPDM techniques under disturbed weather”, Journal of Optics (Springer, 2023), https://doi.org/10.1007/s12596-023-01255-1
  339. MM Abud, “A new transmissometer method that measures runway visibility across a short distance”, Int J Adv Appl Sci (researchgate.net, 2023), https://www.researchgate.net/profile/Mariam-Abud/publication/374282164_A_new_transmissometer_method_that_measures_runway_visibility_across_a_short_distance/links/65206fdefc5c2a0c3bbb36dd/A-new-transmissometer-method-that-measures-runway-visibility-across-a-short-distance.pdf
  340. V Fito, M Morant and R Llorente, “Design requirements for mm-wave integrated optical beamforming networks”, Next-Generation Optical … (spiedigitallibrary.org, 2023), https://doi.org/10.1117/12.2660412.short
  341. M Kumari, “Design of IoT based hybrid Red LED VLC-fiber communication system”, 2023 International Conference on Advances in … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10074488/
  342. V Gnanalakshmi, D Arjun and ZA Rahman, “Performance analysis of OCDMA network with improved security”, AIP Conference Proceedings (pubs.aip.org, 2023), https://doi.org/10.1063/5.0125205
  343. J Mirza, A Raza, A Atieh, S Ghafoor, AG Alharbi and …, “Performance Enhancement of Er–Yb: Co-doped Waveguide Amplifier Employing Backward Pumping in the Presence of Energy Transfer Upconversion”, Arabian Journal for … (Springer, 2023), https://doi.org/10.1007/s13369-023-08440-1
  344. S Singh, S Singh and G Kaur, “Tricolor lasers and optical angular momentum based visible light communication system”, Optical and Quantum Electronics (Springer, 2023), https://doi.org/10.1007/s11082-023-05106-y
  345. S Kaur and R Goyal, “Impact of Scintillation Effect on Clear Weather and Fog Conditions using MDM-WDM Modulation Technique”, Journal of Physics: Conference Series (iopscience.iop.org, 2023), https://doi.org/10.1088/1742-6596/2426/1/012062
  346. AHA Kareem and IA Murdas, “Improvement and Mitigation of Kerr Effects on Multichannel‎ Communication Systems Using Efficient Optical Method”, Journal of University of Babylon for … (journalofbabylon.com, 2023), http://www.journalofbabylon.com/index.php/JUBES/article/view/4575
  347. AHA Kareem and IA Murdas, “Investigation of Fiber Impairment Mitigation Based on Optical Phase Conjugation Technique”, International Journal of Microwave and … (researchgate.net, 2023), https://www.researchgate.net/profile/Ali-Abdul-Kareem/publication/376753727_Investigation_of_Fiber_Impairment_Mitigation_Based_on_Optical_Phase_Conjugation_Technique/links/6585d4376f6e450f1993dc86/Investigation-of-Fiber-Impairment-Mitigation-Based-on-Optical-Phase-Conjugation-Technique.pdf
  348. KS Chen, “Spectral efficiency analysis of spectral amplitude coding-based optical packet-switching networks using p value approach”, Optical and Quantum Electronics (Springer, 2023), https://doi.org/10.1007/s11082-023-05251-4
  349. M Kumari, “Modeling of high-speed fiber-IsOWC communication system”, 2023 International Conference on Computational … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10141502/
  350. R Paliwal, P Patel and A Atieh, “Implementation of 16 QAM signal transmission over RO-VLC system using high power LEDs”, Journal of Optical Communications (degruyter.com, 2023), https://doi.org/10.1515/joc-2023-0098
  351. A Armghan, “Addressing nonlinear İmpairments in fiber optic communication system utilizing novel modulation schemes”, Frequenz (degruyter.com, 2023), https://doi.org/10.1515/freq-2022-0089
  352. SA Abd El-Mottaleb, M Singh, S Alshathri, W El-Shafai and …, “Enhancing security and capacity in FSO transmission for” (researchgate.net, 2023), https://www.researchgate.net/profile/Walid-El-Shafai/publication/373393462_Enhancing_security_and_capacity_in_FSO_transmission_for_next-generation_networks_using_OFDMOCDMA-based_ICSM_codes/links/64e95f1440289f7a0fb90c4b/Enhancing-security-and-capacity-in-FSO-transmission-for-next-generation-networks-using-OFDM-OCDMA-based-ICSM-codes.pdf
  353. Y Chen, X Ma and J Li, “Design of training sequence based on IQ imbalance estimation in CO-OFDM system”, Optoelectronics Letters (Springer, 2023), https://doi.org/10.1007/s11801-023-2175-1
  354. S Parkash and A Banga, “Performance analysis and optimization of multichannel DWDM-FSO system under the effect of hostile weather conditions”, Journal of Optical Communications (degruyter.com, 2023), https://doi.org/10.1515/joc-2022-0267
  355. M Singh, MH Aly and SA Abd El-Mottaleb, “6G enabling FSO communication system employing integrated PDM-OAM-OCDMA transmission: impact of weather conditions in India”, Applied Optics (opg.optica.org, 2023), https://opg.optica.org/abstract.cfm?uri=ao-62-1-142
  356. V Arya, M Kumari, R Chauhan and …, “Secure Optical Wireless Satellite Network based OWC-OCDM System with DDW code”, 2023 4th IEEE Global … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10353493/
  357. AA Hemed and HA Abbas, “Experimental diagnose for spikes width relation with positive optoelectronic feedback attenuation in a quantum well laser diode”, AIP Conference Proceedings (pubs.aip.org, 2023), https://pubs.aip.org/aip/acp/article/2834/1/070001/2926067
  358. S Singh, NS Grewal and B Kaur, “Performance investigation and development of 112 gbit/s dual polarization 16 QAM transmission system using differential encoding”, Optical and Quantum Electronics (Springer, 2023), https://doi.org/10.1007/s11082-022-04287-2
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