Evolution of Orchestration Towards 5G

Service orchestration is an essential activity in 5G networks. It performs optimal resource allocation and provisions services in an effective sequence based on demands across a collection of physical or virtual network functions (P/VNF). This paper summarizes several orchestration environments and components along with their evolution towards 5G. A brief operational comparison of platforms such as Open Source Management and Orchestration (OSM MANO), Open Platform for NFV (OPNFV) and Open Network Automation Platform (ONAP) have been presented, along with different deployment models and architectural alternatives

SiGe BiCMOS ICs for X-Band 7-Bit T/R module with high precision amplitude and phase control

Over the last few decades, phased array radar systems had been utilizing Transmit/Receive (T/R) modules implemented in III-V semiconductor based technologies. However, their high cost, size, weight and low integration capability created a demand for seeking alternative solutions to realize T/R modules. In recent years, SiGe BiCMOS technologies are rapidly growing their popularity in T/R module applications by virtue of meeting high performance requirements with more reduced cost and power dissipation with respect to III-V technologies. The next generation phased array radar systems require a great number of fully integrated, high yield, small-scale and high accuracy T/R modules. In line with these trends, this thesis presents the design and implementation of the first and only 7-Bit X-Band T/R module with high precision amplitude and phase control in the open literature, which is realized in IHP 0.25μ SiGe BiCMOS technology. In the scope of this thesis, sub-blocks of the designed T/R module such as low noise amplifier (LNA), inter-stage amplifier, SiGe Hetero-Junction Bipolar Transistor (HBT) Single- Pole Double-Throw (SPDT) switch and 7-Bit digitally controlled step attenuator are extensively discussed. The designed LNA exhibits Noise Figure (NF) of 1.7 dB, gain of 23 dB, Output Referred Compression Point (OP1dB) of 16 dBm while the inter-stage amplifier gives measured NF of 3 dB, gain of 15 dB and OP1dB of 18 dBm. Moreover, the designed SPDT switch has an Insertion Loss (IL) of 1.7 dB, isolation of 40 dB and OP1dB of 28 dBm. Lastly, the designed 7-Bit SiGe HBT digitally controlled step attenuator demonstrates IL of 8 dB, RMS attenuation error of 0.18 dB, RMS phase error of 2° and OP1dB of 16 dBm. The 7-Bit T/R module is constructed by using the sub-blocks given above, along with a 7- Bit phase shifter (PS) and a power amplifier (PA). Post-layout simulation results show that the designed T/R module exhibits a gain of 38 dB, RMS phase error of 2.6°, RMS amplitude error of 0.82 dB and Rx-Tx isolation of 80 dB across X-Band. The layout of T/R module occupies an area of 11.37 mm2

Design And Implementation Of An X-Band Passive Rfid Tag

This research presents a novel fully integrated energy harvester, matching network, matching network,matching network, matching network,matching network, matching network, matching network, multi-stage RF-DC rectifier, mode selector, RC oscillator, LC oscillator, and X-band power amplifier implemented in IBM 0.18-µm RF CMOS technology. We investigated different matching schemes, antennas, and rectifiers with focus on the interaction between building blocks. Currently the power amplifier gives the maximum output power of 5.23 dBm at 9.1GHz. The entire RFID tag circuit was designed to operate in low power consumption. Voltage sensor circuit which generates the enable signal was designed to operate in very low current. All the test blocks of the RFID tag were tested. The smaller size and the cost of the RFID tag are critical for widespread adoption of the technology. The cost of the RFID tag can be lowered by implementing an on-chip antenna. We were able to develop, fabricate, and implement a fully integrated RFID tag in a smaller size (3 mm X 1.5 mm) than the existing tags. With further modifications, this could be used as a commercial low cost RFID tag

18.1 Eco-Poetics

Rampike Vol. 18 / No.1 (Eco-Poetics issue): Daphne Marlatt, Mari-Lou Rowley, Di Brandt, George Bowering, Frank Davey, Fred Wah, Brenda Saunders, David Hickey, Brian Henderson, Rolland Nadjiwon, Joanne Arnott, Roy Miki, Rita Wong, Ann Fisher-Wirth, Harriet Tarlo, Tammy Armstrong, Murali Sivaramakrishnan, Paul Huebner, Gracie Carlascio, Adam Dickinson, Christine Sy, Alanna Bondar, Judith Copithorne, Jonathan Skinner, David Suzuki, Green Corridor Project, Fernando Aguiar, Britt-Marie Lindgren, Noni Boyle, Camille Martin. Cover Art: Camille Marti

Development of turnable and miniature microwave filters for modern wireless communication

Due to the increasing demand for new wireless services and applications, the high level of integration and the coexistence of multi-standard (MS) or multi-band operations into a single device are becoming defining trends in designing microwave filters. This has driven considerable technological advances in reconfigurable/tunable and miniaturized filters. More specifically, reconfigurable/tunable filters that tune to different frequency bands instead of classical filter banks have great potential to significantly reduce the system size and complexity; while reducing the filter size becomes essential to achieve the highest degree of integration density in compact and portable wireless devices. In the light of this scenario, the objective of this dissertation is to develop the new design technologies, concepts and filtering configurations for tunable microstrip filters and compact passive microwave filters. To this aim, this dissertation is divided into two main parts. The first part (Part I) focuses on the designs of novel varactor-tuned microstrip filters with advanced performances. In this aspect, new topologies for realizing tunable lowpass and highpass filters are firstly developed. State-of-the-art performances, including wide tuning range, high selectivity with multiple transmission zeros, low insertion loss and compact size for all the tuning states are obtained in both of these filters. Secondly, two novel classes of tunable bandpass filters are presented. One of them is designed based on varactor-loaded parallel-coupled microstrip lines (PCML) and short-circuited stubs, which allows the lower passband edge together with two transmission zeros located around the lower passband skirt to be reconfigured separately. While the other tunable bandpass filter is iii constructed by the combination of tunable bandpass and lowpass filters, featuring both centre frequency and bandwidth tunabilities, as well as high selectivity with abundant transmission zeros. Furthermore, a new concept of tunable lossy filter is demonstrated, which attempts to achieve an equivalent high-Q tunable performance by using low-Q resonators. This concept makes the presented tunable combline filter interesting for some frequency-agile applications in which the low in-band loss variation and high selectivity are much desired while the absolute insertion loss can be a tradeoff. The second part (Part II) is devoted to the design of miniaturized passive microwave filters with improved characteristics. For this, the concept of artificial right-handed and left-handed transmission lines are applied to the signal interference filtering topology, which results in a compact circuit size and good out-of-band performance. In particular, for a further size reduction, such filter is implemented in the forms of multilayered structure by using liquid crystal polymer (LCP) technology. Additionally, another two types of miniaturized bandpass filters using stepped impedance resonators are demonstrated, which are implemented based on different fabrication processes (i.e. LCP bonded multilayer PCB technology and a standard planar PCB technology). Among their main features, the compact size, wide passband, broad stopband with multiple transmission zeros and circuit simplicity are highlighted. For all the proposed design techniques and filtering structures, exhaustive theoretical analyses are done, and design equations and guide rules are provided. Furthermore, all the proposed schemes and/or ideas have been experimentally validated through the design, implementation and measurement of different filters. The fabrication processes of multilayer technology utilized: liquid crystal polymer (LCP) technology and liquid crystal polymer (LCP) bonded multilayer printed circuit board (PCB) technology, are also demonstrated for reference. All of the results achieved in this dissertation make the proposed filters very attractive for their use in modern wireless communication systems.MultiWaves Project (PIRSES-GA-2010-247532) of the Seventh Framework Programme (FP7), European Commission

Development of tunable and miniature microwave filters for modern wireless communications

Due to the increasing demand for new wireless services and applications, the high level of integration and the coexistence of multi-standard (MS) or multi-band operations into a single device are becoming defining trends in designing microwave filters. This has driven considerable technological advances in reconfigurable/tunable and miniaturized filters. More specifically, reconfigurable/tunable filters that tune to different frequency bands instead of classical filter banks have great potential to significantly reduce the system size and complexity; while reducing the filter size becomes essential to achieve the highest degree of integration density in compact and portable wireless devices. In the light of this scenario, the objective of this dissertation is to develop the new design technologies, concepts and filtering configurations for tunable microstrip filters and compact passive microwave filters. To this aim, this dissertation is divided into two main parts. The first part (Part I) focuses on the designs of novel varactor-tuned microstrip filters with advanced performances. In this aspect, new topologies for realizing tunable lowpass and highpass filters are firstly developed. State-of-the-art performances, including wide tuning range, high selectivity with multiple transmission zeros, low insertion loss and compact size for all the tuning states are obtained in both of these filters. Secondly, two novel classes of tunable bandpass filters are presented. One of them is designed based on varactor-loaded parallel-coupled microstrip lines (PCML) and short-circuited stubs, which allows the lower passband edge together with two transmission zeros located around the lower passband skirt to be reconfigured separately. While the other tunable bandpass filter is constructed by the combination of tunable bandpass and lowpass filters, featuring both centre frequency and bandwidth tunabilities, as well as high selectivity with abundant transmission zeros. Furthermore, a new concept of tunable lossy filter is demonstrated, which attempts to achieve an equivalent high-Q tunable performance by using low-Q resonators. This concept makes the presented tunable combline filter interesting for some frequency-agile applications in which the low in-band loss variation and high selectivity are much desired while the absolute insertion loss can be a tradeoff. The second part (Part II) is devoted to the design of miniaturized passive microwave filters with improved characteristics. For this, the concept of artificial right-handed and left-handed transmission lines are applied to the signal interference filtering topology, which results in a compact circuit size and good out-of-band performance. In particular, for a further size reduction, such filter is implemented in the forms of multilayered structure by using liquid crystal polymer (LCP) technology. Additionally, another two types of miniaturized bandpass filters using stepped impedance resonators are demonstrated, which are implemented based on different fabrication processes (i.e. LCP bonded multilayer PCB technology and a standard planar PCB technology). Among their main features, the compact size, wide passband, broad stopband with multiple transmission zeros and circuit simplicity are highlighted. For all the proposed design techniques and filtering structures, exhaustive theoretical analyses are done, and design equations and guide rules are provided. Furthermore, all the proposed schemes and/or ideas have been experimentally validated through the design, implementation and measurement of different filters. The fabrication processes of multilayer technology utilized: liquid crystal polymer (LCP) technology and liquid crystal polymer (LCP) bonded multilayer printed circuit board (PCB) technology, are also demonstrated for reference. All of the results achieved in this dissertation make the proposed filters very attractive for their use in modern wireless communication systems

A Cognitive Routing framework for Self-Organised Knowledge Defined Networks

This study investigates the applicability of machine learning methods to the routing protocols for achieving rapid convergence in self-organized knowledge-defined networks. The research explores the constituents of the Self-Organized Networking (SON) paradigm for 5G and beyond, aiming to design a routing protocol that complies with the SON requirements. Further, it also exploits a contemporary discipline called Knowledge-Defined Networking (KDN) to extend the routing capability by calculating the “Most Reliable” path than the shortest one. The research identifies the potential key areas and possible techniques to meet the objectives by surveying the state-of-the-art of the relevant fields, such as QoS aware routing, Hybrid SDN architectures, intelligent routing models, and service migration techniques. The design phase focuses primarily on the mathematical modelling of the routing problem and approaches the solution by optimizing at the structural level. The work contributes Stochastic Temporal Edge Normalization (STEN) technique which fuses link and node utilization for cost calculation; MRoute, a hybrid routing algorithm for SDN that leverages STEN to provide constant-time convergence; Most Reliable Route First (MRRF) that uses a Recurrent Neural Network (RNN) to approximate route-reliability as the metric of MRRF. Additionally, the research outcomes include a cross-platform SDN Integration framework (SDN-SIM) and a secure migration technique for containerized services in a Multi-access Edge Computing environment using Distributed Ledger Technology. The research work now eyes the development of 6G standards and its compliance with Industry-5.0 for enhancing the abilities of the present outcomes in the light of Deep Reinforcement Learning and Quantum Computing

DRONES FOR IMPROVING TRAFFIC SAFETY IN RITI COMMUNITIES IN WASHINGTON STATE

Transportation and traffic safety is a primary concern in Rural, Isolated, Tribal, or Indigenous (RITI) communities in Washington (WA) State. Parallel to this, while emerging technologies (e.g., connected/autonomous vehicles, drones) have been developed and tested in addressing traffic safety issues, they are often not widely shared in RITI communities for various reasons. Compared with other technological advances, drone technologies have been rapidly improved and can be flexibly applied to multiple fields, including engineering, agriculture and disaster managements. The goal of this study is to explore and synthesize the opportunities, challenges and scenarios that drone technologies can assist to resolve traffic safety related issues and concerns in RITI communities. Through the outreach activities with the outer Pacific Coast in WA state, it is found that the principal concern within these communities are disaster management and mitigation since they are facing the threat of coastal erosion, earthquake and tsunami. Thus, the emergency management and hazard mitigation becomes the major way to further explore drone applications in the selected communities. To achieve this, we reviewed the current state of the drone technologies, conducted surveys from National Guard and coastal communities in WA, including City of Westport, South Beach Region, Grays Harbor County, Shoalwater Bay Tribe, and Quinault Indian Nation, to better understand their current needs, challenges and issues. Ultimately, recommendations of drone applications under specific scenarios are provided based upon the integration of drone technologies with community safety needs.TABLE OF CONTENTS Disclaimer....................................................................................................................................................... i Technical Report Documentation Page ........................................................................................................ ii SI* (Modern Metric) Conversion Factors ..................................................................................................... iii List of Figures ................................................................................................................................................ v List of Tables ................................................................................................................................................ vi Executive Summary ....................................................................................................................................... 1 CHAPTER 1. Introduction .......................................................................................................................... 2 1.1. General Background ...................................................................................................................... 2 1.2. Problem Statement ....................................................................................................................... 3 CHAPTER 2. Literature review of drone technology and Application ....................................................... 5 2.1. State of the Art Drone Technologies............................................................................................. 5 2.2. Practice of drones in Washington State ........................................................................................ 6 CHAPTER 3. Outreach activities ................................................................................................................ 7 3.1. Community Engagement for Coastal Resilience Studio ................................................................ 8 3.1.1. Westport/South Beach Workshop – 11/2018 (27) ............................................................. 10 3.2. WA National Guard Workshop – 6/2019 .................................................................................... 11 CHAPTER 4. Online survey ...................................................................................................................... 14 CHAPTER 5. results and recommendationS ............................................................................................ 15 5.1. Outreach Activity Findings .......................................................................................................... 15 5.1.1. Transportation and Traffic Safety in Westport ................................................................... 15 5.1.2. Learning from WA National Guard Workshop .................................................................... 17 5.2. Online Survey Results.................................................................................................................. 18 5.3. Recommendation of drone applications .................................................................................... 18 CHAPTER 6. conclusion and future study ............................................................................................... 24 Reference .................................................................................................................................................... 25 Appendix A: UAV (Drones) technologies ...................................................................................................... 1 Appendix B: Workshop report for Westport Coastal Resilience................................................................... 1 Appendix C: Online Survey ............................................................................................................................ 1 Appendix D: Executive Summary of Westport Costal Resilience Report ...................................................... 1 Appendix E: Transportation Chapter of Westport Costal Resilience Report ................................................

The Internet and the Project of Communications Law

The internet offers the potential for economic growth stemming from online human communications, but recent industry and government actions have disfavored these possibilities by treating the internet like a content-delivery supply chain. This article recommends that the internet be at the center of communications policy and that laws affecting internet access be evaluated in terms of whether they further U.S. economic growth by facilitating increased emergent online diversity. It criticizes the nearly exclusive focus of communications policy on the private economic success of infrastructure and “application” providers, and suggests that communications policy be focused on facilitating communications themselves