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WP-JP-E Review meeting

WP-JP-E Review meeting. JPE Technical review. An outline of research fields General areas of research in JP-E: Equalization techniques, FFE,DFE, MLSE Equalization in WDM systems, for CD, PMD, NL Optimization of MLSE equalizers Optimization of FFE/DFE equalizers

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WP-JP-E Review meeting

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  1. WP-JP-E Review meeting

  2. JPE Technical review An outline of research fields • General areas of research in JP-E: • Equalization techniques, FFE,DFE, MLSE • Equalization in WDM systems, for CD, PMD, NL • Optimization of MLSE equalizers • Optimization of FFE/DFE equalizers • Development and study of SQRT equalization • Coherent multi-level systems + equilization • Signal pre-distortion, pre-shaping • MMF equilization

  3. JPE Technical review FFE/DFE Equalization + Modulation formats MLSE Pre-Equalization Designs Coding FEC Combinations In access MMF Longer distances In metro Studies Performance Dispersion/OSNR Higher capacity In core Non-Linearities Comparisons

  4. JPE Technical review

  5. JPE Technical review ctd. Topics studied, investigated, demonstrated: • Electronics to mitigate impairments in core: • Channel distortion: Dispersion, SPM, • Timevirying effects: PMD  FFE/DFE: Optimization of taps, transmission efficiency, adaptive schemes  MLSE: Optimization, study on required stages, transmission efficiency  Alternative solution: pre-equalization • Electronics to mitigate impairments in metro/access: • Cost effective, small bandwidth, high capacity systems • Low cost Tx,Rx, MMF  Coherent multi-level systems + equilization  Low cost DML transmission enchancement compensation (FFE/DFE)  MMF transmission equalization with FFE/DFE • Development and study of SQRT equalization

  6. Actual Research per partner Research fields per partner poliTO MLSE receivers – Algorithm, design optimization Coherent systems + equalization. Optical PLL to increase receiver sensitivity FT WDM system equalization (CD, PMD) MLSE receiver FEC + equalization (comparative studies) ENST PMD equalization studies (1st and 2nd order PMD) Modulation Format (MOTS) to reduce SPM-induced chirp – Signal Pre-shaping UCL MLSE testing, pre-equalization, pre-distortion techniques FFE/DFE optimization

  7. Actual Research HHI Coherent systems (optical 16QAM) + Equalization IT Modulation Formats (OSSB) dispersion tolerant – Signal pre-shaping SQRT design AIT DFE/FFE optimization DML – equalization UPC Coherent systems – Homodyne receivers (for ultra-DWDM in PONs) DML – Frequency modulation + pre-/post-equalization SQRT equalizers UoA MMF, plastic fibre equalization for Access, Home networks

  8. Common research fields Combination of knowledge and research fields among JP-E partners Coherent systems + equilization: poliTO, UPC, HHI Equalization in WDM systems: FT, ENST, AIT Advanced equilization schemes: poliTO, UCL, FT DML efficiency enhancment : AIT, UPC Impairment tolerant modulation formats – Signal/Spectrum Pre-shaping: IT, ENST MMF POF equilization: UoA, PoliTO

  9. JP-E Mobility actions Mobility actions: • PoliTO, UCL, UPC: • On the development and testing of MLSE equalization technique • PoliTO, UPC, IT: • Plans for further investigations and realization of MLSE • UPC, IT: • On the performance increase of low cost receivers with the use of SQRT equalizer. • UoA, PoliTO: • On electronic dispersion compensation for multimode and plastic optical fibers

  10. Final report – JP-E technical summary A 10 page report on the developed techniques within JPE has been prepared and intended for publication • Introduction: • Network benefits with electronic compensation • Electronic equalizers: FFE/DFE, MLSE • Compensating chromatic and polarization mode dispersion with EDC • JPE research activities on FFE/DFE • JPE research activities on MLSE • Electronic pre-distortion methods • Special applications developed and studied within JPE • SQRT equalization • Enhancing the performance DML transmitters • Equalization in high order formats • Equalization in short reach links for Multi-Mode Fibres

  11. Joint papers

  12. Achievements and further research Research Achievement: • Development and testing of MLSE equalization: • Work has been carried out through several collaborations for over two years • Resulted in one of the leading research activities worldwide on the topic of equalization • Demonstrated a world record uncompensated transmission distance (over 1000km). ! • …in ECOC 2006 Post Deadline paper Th4.4.6 • SQRT equalization: • Initial design and demonstration within JPE • Further developments and testing is underway to achieve higher data rates and examine other transmission techniques • FFE/DFE equalization for low cost access networks: • Further collaborative work in currently performed on DML and RSOA transmitters for low cost tuneable access networks

  13. Collaborations established FP7 projects where JPE team participates: • STREP SARDANA: • Project initiated purely from the JPE partners • JPE Partners that participate: UPC, IT, AIT, FT • Targets the development and study of PON architectures for access and low cost technologies to extend the reach, the capacity and the number of users of current PONs • Ranked 3rd in the final FP7 call 1 evaluation! • NoE BONE: • All JPE partners are participating to WP15 on Transmission technologies. • Mitigation techniques with the use of electronics is identified as one of the main key activities • Further work focuses on the benefits offered to network design aspects from the use of electronic compensation techniques

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