Taiwan is facing several issues as cities develop, including traffic congestion, public safety concerns, inefficient energy use, and more. The document outlines Taiwan's efforts to implement smart city solutions to address these issues across areas like governance, transportation, energy, and the environment. It provides examples of projects underway in major cities using technologies like smart surveillance cameras, electronic toll collection on roads, intelligent parking management systems, micro-grid solar energy installations, and large solar farms. The goal is to create safer, more efficient, and sustainable urban environments through digital transformation and innovative smart city applications.
The document summarizes Taiwan's efforts to develop smart cities through integrating multiple technological solutions. It discusses issues facing modern cities like public safety, traffic, and education resources. Taiwan is using technologies like surveillance systems, smart lighting, electric vehicle sharing, and online education platforms to address these issues. Examples provided include a 170,000 camera surveillance network, smart lighting that also provides charging stations, and a program allowing small rural schools to share educational resources virtually. The goal is to improve quality of life through efficient, sustainable, and innovative smart city initiatives.
Taipei is implementing a smart city initiative called Smart Taipei that focuses on smart living, cybersecurity, transportation, public housing, healthcare, education, and payments. It aims to facilitate innovation through proof of concept projects, engage stakeholders, and change culture. Some key projects include a smart Taipei main station, smart streetlights, a smart parking system, smart waste bins, and using AI for traffic flow calculation and pollution traceability. The initiative brings innovation to government and opens channels for citizen participation.
Opportunities and the tech ecosystems in SE Asia and Thailand are booming. The Thailand Board of Investment shares an overview of the tech and talent landscape and new initiatives to support business expanding into the area. Connect with us if you are interested in learning more or working with Thailand!
Huawei Smart City Overview Presentation.pptxLibraryOnline1
The document summarizes challenges faced and solutions implemented in Longgang District, Shenzhen, China to become a smart city. It faced issues like a large floating population, low-end industries, lack of development impetus and inefficient public services. To address this, a smart city system was developed with unified networks, cloud, databases, services and applications to integrate data and provide benefits. This included enabling one-window government services, breaking data silos, multi-agency planning, improving public safety with AI and video, innovating industries, and using an intelligent operations center to improve management. Huawei's smart city solutions and strategies are also summarized.
Thailand is working to transform its economy through digitalization and innovation. The country has high rates of internet and smartphone penetration that are driving growth in digital markets like e-commerce, digital advertising, and social media. The government is also investing heavily in digital infrastructure like broadband and data centers, as well as initiatives to promote the digital economy, e-commerce, cashless payments, and e-government services. Thailand has a strong startup ecosystem focused on areas like fintech, e-commerce and logistics, and the country is working to build out regulatory frameworks to support financial technology innovation.
On the Road to Smart Cities - Opportunities and Challenges莫利伟 Olivier Maugain
Chinese cities are much larger in population than French cities, with Chinese cities being over 20 times larger on average. As China's urbanization rate increases to 69% by 2030, nearly 1 billion people will live in cities, requiring the absorption of 220 million new urban residents over 15 years. This rapid urbanization will put major strain on Chinese cities relating to transportation, healthcare, utilities and other areas. Smart cities offer a solution by enabling improved urban services, reduced costs and resource usage, and enhanced citizen engagement through analysis of real-time information across sectors. Examples provided include a bus tracking app in Chongqing, a smart grid at a hospital in Ningxia, and a connected home development in Guangzhou. China is
Bambucluster's point of view on how IoT can be a key enabler of Smart Mobility/ transportation solutions. Presented on June 14th, 2017 at the the BrightTALK Internet of Everything summit:
https://summits.brighttalk.com/webinar/iot-enabled-smart-mobility-hype-or-reality/
Urban mobility has always been about moving people from location to location through motorized personal or public transport. However, the proliferation of sensors, smartphones and intelligent high bandwidth networks are compelling towns & cities around the world to re-think urban mobility and consider technology enablers to drive towards a vision of “smart” mobility. Furthermore, the fundamental assumptions underpinning mobility are being challenged.
The Internet Of Things (IotT) has been touted as a promising technology enabler to deliver on a vision of smart mobility. We will examine the current state of IoT ecosystems, IoT enabled smart mobility efforts across the globe and help delineate the architectural considerations and cross-industry industry collaboration that would be essential to successfully deliver on smart mobility initiatives. A simple use case around a town/city smart mobility service will be used to illustrate our approach.
3.4. Smart city - nguyen quang vinh viettelChuong Nguyen
This document discusses Viettel's efforts to develop smart and sustainable cities in Vietnam. It begins with an introduction to Vietnam as an emerging economy with rapid growth and a large population. It then discusses the problems of environmental pollution, traffic congestion, and lack of parking that smart cities can help address. The document outlines Vietnam's national smart cities program and ASEAN collaboration. It introduces Viettel as the largest ICT provider in Vietnam working to develop smart city solutions through digital infrastructure, technology partnerships, and intelligent operation centers. Examples of Viettel's smart cities work in traffic monitoring, data analytics, security, citizen support, and public services are provided.
The document summarizes Taiwan's efforts to develop smart cities through integrating multiple technological solutions. It discusses issues facing modern cities like public safety, traffic, and education resources. Taiwan is using technologies like surveillance systems, smart lighting, electric vehicle sharing, and online education platforms to address these issues. Examples provided include a 170,000 camera surveillance network, smart lighting that also provides charging stations, and a program allowing small rural schools to share educational resources virtually. The goal is to improve quality of life through efficient, sustainable, and innovative smart city initiatives.
Taipei is implementing a smart city initiative called Smart Taipei that focuses on smart living, cybersecurity, transportation, public housing, healthcare, education, and payments. It aims to facilitate innovation through proof of concept projects, engage stakeholders, and change culture. Some key projects include a smart Taipei main station, smart streetlights, a smart parking system, smart waste bins, and using AI for traffic flow calculation and pollution traceability. The initiative brings innovation to government and opens channels for citizen participation.
Opportunities and the tech ecosystems in SE Asia and Thailand are booming. The Thailand Board of Investment shares an overview of the tech and talent landscape and new initiatives to support business expanding into the area. Connect with us if you are interested in learning more or working with Thailand!
Huawei Smart City Overview Presentation.pptxLibraryOnline1
The document summarizes challenges faced and solutions implemented in Longgang District, Shenzhen, China to become a smart city. It faced issues like a large floating population, low-end industries, lack of development impetus and inefficient public services. To address this, a smart city system was developed with unified networks, cloud, databases, services and applications to integrate data and provide benefits. This included enabling one-window government services, breaking data silos, multi-agency planning, improving public safety with AI and video, innovating industries, and using an intelligent operations center to improve management. Huawei's smart city solutions and strategies are also summarized.
Thailand is working to transform its economy through digitalization and innovation. The country has high rates of internet and smartphone penetration that are driving growth in digital markets like e-commerce, digital advertising, and social media. The government is also investing heavily in digital infrastructure like broadband and data centers, as well as initiatives to promote the digital economy, e-commerce, cashless payments, and e-government services. Thailand has a strong startup ecosystem focused on areas like fintech, e-commerce and logistics, and the country is working to build out regulatory frameworks to support financial technology innovation.
On the Road to Smart Cities - Opportunities and Challenges莫利伟 Olivier Maugain
Chinese cities are much larger in population than French cities, with Chinese cities being over 20 times larger on average. As China's urbanization rate increases to 69% by 2030, nearly 1 billion people will live in cities, requiring the absorption of 220 million new urban residents over 15 years. This rapid urbanization will put major strain on Chinese cities relating to transportation, healthcare, utilities and other areas. Smart cities offer a solution by enabling improved urban services, reduced costs and resource usage, and enhanced citizen engagement through analysis of real-time information across sectors. Examples provided include a bus tracking app in Chongqing, a smart grid at a hospital in Ningxia, and a connected home development in Guangzhou. China is
Bambucluster's point of view on how IoT can be a key enabler of Smart Mobility/ transportation solutions. Presented on June 14th, 2017 at the the BrightTALK Internet of Everything summit:
https://summits.brighttalk.com/webinar/iot-enabled-smart-mobility-hype-or-reality/
Urban mobility has always been about moving people from location to location through motorized personal or public transport. However, the proliferation of sensors, smartphones and intelligent high bandwidth networks are compelling towns & cities around the world to re-think urban mobility and consider technology enablers to drive towards a vision of “smart” mobility. Furthermore, the fundamental assumptions underpinning mobility are being challenged.
The Internet Of Things (IotT) has been touted as a promising technology enabler to deliver on a vision of smart mobility. We will examine the current state of IoT ecosystems, IoT enabled smart mobility efforts across the globe and help delineate the architectural considerations and cross-industry industry collaboration that would be essential to successfully deliver on smart mobility initiatives. A simple use case around a town/city smart mobility service will be used to illustrate our approach.
3.4. Smart city - nguyen quang vinh viettelChuong Nguyen
This document discusses Viettel's efforts to develop smart and sustainable cities in Vietnam. It begins with an introduction to Vietnam as an emerging economy with rapid growth and a large population. It then discusses the problems of environmental pollution, traffic congestion, and lack of parking that smart cities can help address. The document outlines Vietnam's national smart cities program and ASEAN collaboration. It introduces Viettel as the largest ICT provider in Vietnam working to develop smart city solutions through digital infrastructure, technology partnerships, and intelligent operation centers. Examples of Viettel's smart cities work in traffic monitoring, data analytics, security, citizen support, and public services are provided.
1. DA NANG - SMART CITY - tran ngoc thachChuong Nguyen
Da Nang is developing a smart city master plan to transform into a major ecological and smart city by 2045. The plan involves building intelligent infrastructure including an operation center, data center, and wireless network. It will develop smart applications for transportation, environment, tourism, education, and more. The long term goal is to have an integrated smart city platform connecting government, businesses and citizens by 2030. The initial budget for smart city projects from 2019-2024 is estimated at $53 million.
Vietnam has a fast growing digital economy and ICT sector, driven by strong GDP growth, increasing FDI, and government initiatives. The report identifies opportunities in fintech, e-commerce, smart cities, agriculture technology, and skills development to address workforce shortages as Vietnam prepares for Industry 4.0. However, Vietnam faces challenges around infrastructure investment, regulatory reforms, and developing technical skills to fully capitalize on these opportunities by 2025.
With the market value of its digital economy considered the 2nd largest in ASEAN, Thailand has witnessed a digital revolution affecting processes, activities and transactions across almost every sector. Driven by the pursuit of the economic targets and vision contained within its Thailand 4.0 policy, Thailand is well on its way to achieving digital transformation. In 2018, it was estimated that approximately 17% of Thailand’s Gross Domestic Product (GDP) was derived from the digital economy.
India is facing severe traffic congestion problems in its major cities due to rapid population growth and increased vehicle ownership. The government is taking steps like improving public transportation and investing in infrastructure projects, but traffic continues to worsen. Intelligent Transportation Systems (ITS) use technology to help manage traffic flow. This presentation discusses ITS applications in India like traffic monitoring centers, electronic toll collection, and traveler information systems. It also describes the Traffic Management and Information Control Center (TMICC) which uses sensors and communication networks to enforce traffic rules, monitor traffic, disseminate information to the public, and analyze collected data to improve planning. The goal of ITS and TMICCs is to increase safety, reduce congestion, and enhance
Presentation given by Santanu Sengupta, Board Member, African Centre for Mobile Financial Inclusion on August 1st, 2011 at eWorld Forum (www.eworldforum.net) in the session Telecentres: Effective Approaches and Best Practices
This document summarizes an EU-China Joint White Paper on the Internet of Things published in January 2016. It provides an overview of the latest developments of IoT in both the EU and China. In China, IoT development is supported by government policies and plans. Major applications are in industrial manufacturing, agriculture, energy, and smart cities. Internet companies are also playing a large role. In the EU, IoT is seen as key to economic growth. The European Commission is supporting IoT through policies, funding programs, and initiatives to develop standards and large-scale pilots. Future cooperation between the EU and China on IoT is proposed.
This document discusses digital transformation and FarEasTone's practices in supporting enterprise digital transformation. It covers:
1) How digital transformation is creating a "third era" and driving changes in businesses.
2) FarEasTone's approach of first exploring new markets, then learning new skills and languages, and expanding revenue sources through strengthening product development and looking at industry verticals.
3) Examples of how FarEasTone is helping the city of Tainan with smart city initiatives across areas like operations, transportation, health, tourism, and working with different city departments.
2018 China Smart City Ranking - Top 10 Smart Eco-CitiesSmartEcoCity (SEC)
China has about 500 smart city pilot projects, the highest in the world. What makes them different? Which city is the smartest in 2018? SEC gives the answer is in this report. Smarter, Greener, Together!
Professor Isam Shahrour Summer Course « Smart and Sustainable City » Chapter...Isam Shahrour
This lecture presents the Smart City Concept. It includes presentation of the city challenges, the response of the Smart City to these challenges, the Smart City concept, a survey of the smart city development in the world and the methodology of the implementation of this concept.
Smart city for developing countries, Algiers, September 2015Isam Shahrour
Conference of professor Isam Shahrour at the Summer School on Nanostructure and Applications SSNA’2015, Algiers, September 10, 2015.
The conference concerns the use of the Smart Concept in developing countries. It presents successively the main challenges of developing countries, the smart city concept, why this concept is relevant for developing countries and the implementation of this concept through SunRise project “Large Scale demonstrator of the Smart City”.
Smart cities aim to address complex issues facing urban areas through technology and data-driven solutions. As more people live in cities, issues like traffic congestion, outdated infrastructure, safety concerns, and high healthcare costs are increasing. Technology is driving changes through connectivity, sensors, machine learning, and more. Smart cities offer opportunities to improve transportation, infrastructure, energy management, healthcare, education, and other areas. Success requires an integrated, user-centered approach that leverages existing assets and data to both manage current problems and create new solutions for the future.
Global Challenge Porjct Report -Coursework of University of Bristol ssusera0a3b6
Group work in MSc Engineering Management, University of Bristol. This report proposes optimized solutions to the challenges of commuter transport in cities in developing countries to promote a low-carbon transformation.
Building Together Algiers Smart City - Smart Cities Summit 2018 - AlgiersSmart Algiers
This document discusses building a smart city in Algiers, Algeria and outlines some of the challenges facing its development. It describes Huawei's smart city solution which includes key components like a cloud data center, intelligent operation center, IOT infrastructure, and communications network to address issues and help modernize the city. The solution has been implemented in over 100 cities globally.
[e-Government Program City Paper : Abuja, Nigeria]shrdcinfo
This document discusses e-government initiatives in Abuja and Lagos State, Nigeria. It outlines several current e-government programs in Nigeria including e-passports, online land registration, and online services from government agencies. It also discusses the national e-government strategies and goals, and outlines some challenges to implementing e-government programs including lack of infrastructure, coordination issues, and low digital skills. The document proposes strategies to address these challenges such as increasing private sector involvement, improving monitoring and evaluation, expanding internet access, and involving communication professionals. It argues that adopting Seoul's e-government best practices could help Abuja and Lagos State by providing focus, improving quality of life, and contributing to an e-government master plan and
The document discusses recent trends in IoT and sustainability. It covers how IoT can help address challenges facing cities, including growing urban populations and the need for resilient infrastructure. Specific applications of IoT discussed include smart lighting, water monitoring, and expanding internet access. Goals for 2030 include improving infrastructure, making cities sustainable, and increasing access to technology. The document then outlines how IoT can help with issues like transportation, pollution monitoring, and disaster management for smart cities. It provides examples of IoT projects in Visakhapatnam, India and discusses integrating different systems to realize the smart city vision.
All throughout APAC the landscape is changing and presenting a need for smart mobility. Read more in detail to learn how businesses can seize opportunities with the right IT strategy and the right partnership.
Traffic Management And Information Control Centre (TMICC)WaseemAhmad186
The document discusses the objectives and components of a Traffic Management and Information Control Centre (TMICC) in India. The TMICC aims to manage traffic, enforce traffic rules, disseminate travel information to the public, and analyze traffic data. It contains central application software, hardware like video walls and servers, field equipment like traffic signals and CCTV cameras, and utilities like air conditioning. The benefits of a TMICC include improved traffic flow, time savings for commuters, reduced congestion, and lower emissions. Intelligent transportation systems can also be used for applications like electronic toll collection, traffic monitoring, and traveler information systems.
A technical lecture on Information and Technology as enabler for Smart City at Institute of Electronics and Telecommunication Engineers (IETE), Vadodara, Center
Vetiver grass was used to stabilize slopes along the Kiunga–Tabubil Highway in Papua New Guinea that were failing and posing safety hazards due to monsoon rainfall and erosion. Over 900,000 vetiver slips were planted across 15 slopes. This provided a more cost-effective solution than conventional engineering methods. The vetiver plants helped to control erosion and stabilize the slopes, with local communities involved to maintain the areas. Monitoring showed the vetiver was effective at mitigating slope movements. Bioengineering using vetiver grass is now incorporated into the company's yearly road maintenance plan.
1. DA NANG - SMART CITY - tran ngoc thachChuong Nguyen
Da Nang is developing a smart city master plan to transform into a major ecological and smart city by 2045. The plan involves building intelligent infrastructure including an operation center, data center, and wireless network. It will develop smart applications for transportation, environment, tourism, education, and more. The long term goal is to have an integrated smart city platform connecting government, businesses and citizens by 2030. The initial budget for smart city projects from 2019-2024 is estimated at $53 million.
Vietnam has a fast growing digital economy and ICT sector, driven by strong GDP growth, increasing FDI, and government initiatives. The report identifies opportunities in fintech, e-commerce, smart cities, agriculture technology, and skills development to address workforce shortages as Vietnam prepares for Industry 4.0. However, Vietnam faces challenges around infrastructure investment, regulatory reforms, and developing technical skills to fully capitalize on these opportunities by 2025.
With the market value of its digital economy considered the 2nd largest in ASEAN, Thailand has witnessed a digital revolution affecting processes, activities and transactions across almost every sector. Driven by the pursuit of the economic targets and vision contained within its Thailand 4.0 policy, Thailand is well on its way to achieving digital transformation. In 2018, it was estimated that approximately 17% of Thailand’s Gross Domestic Product (GDP) was derived from the digital economy.
India is facing severe traffic congestion problems in its major cities due to rapid population growth and increased vehicle ownership. The government is taking steps like improving public transportation and investing in infrastructure projects, but traffic continues to worsen. Intelligent Transportation Systems (ITS) use technology to help manage traffic flow. This presentation discusses ITS applications in India like traffic monitoring centers, electronic toll collection, and traveler information systems. It also describes the Traffic Management and Information Control Center (TMICC) which uses sensors and communication networks to enforce traffic rules, monitor traffic, disseminate information to the public, and analyze collected data to improve planning. The goal of ITS and TMICCs is to increase safety, reduce congestion, and enhance
Presentation given by Santanu Sengupta, Board Member, African Centre for Mobile Financial Inclusion on August 1st, 2011 at eWorld Forum (www.eworldforum.net) in the session Telecentres: Effective Approaches and Best Practices
This document summarizes an EU-China Joint White Paper on the Internet of Things published in January 2016. It provides an overview of the latest developments of IoT in both the EU and China. In China, IoT development is supported by government policies and plans. Major applications are in industrial manufacturing, agriculture, energy, and smart cities. Internet companies are also playing a large role. In the EU, IoT is seen as key to economic growth. The European Commission is supporting IoT through policies, funding programs, and initiatives to develop standards and large-scale pilots. Future cooperation between the EU and China on IoT is proposed.
This document discusses digital transformation and FarEasTone's practices in supporting enterprise digital transformation. It covers:
1) How digital transformation is creating a "third era" and driving changes in businesses.
2) FarEasTone's approach of first exploring new markets, then learning new skills and languages, and expanding revenue sources through strengthening product development and looking at industry verticals.
3) Examples of how FarEasTone is helping the city of Tainan with smart city initiatives across areas like operations, transportation, health, tourism, and working with different city departments.
2018 China Smart City Ranking - Top 10 Smart Eco-CitiesSmartEcoCity (SEC)
China has about 500 smart city pilot projects, the highest in the world. What makes them different? Which city is the smartest in 2018? SEC gives the answer is in this report. Smarter, Greener, Together!
Professor Isam Shahrour Summer Course « Smart and Sustainable City » Chapter...Isam Shahrour
This lecture presents the Smart City Concept. It includes presentation of the city challenges, the response of the Smart City to these challenges, the Smart City concept, a survey of the smart city development in the world and the methodology of the implementation of this concept.
Smart city for developing countries, Algiers, September 2015Isam Shahrour
Conference of professor Isam Shahrour at the Summer School on Nanostructure and Applications SSNA’2015, Algiers, September 10, 2015.
The conference concerns the use of the Smart Concept in developing countries. It presents successively the main challenges of developing countries, the smart city concept, why this concept is relevant for developing countries and the implementation of this concept through SunRise project “Large Scale demonstrator of the Smart City”.
Smart cities aim to address complex issues facing urban areas through technology and data-driven solutions. As more people live in cities, issues like traffic congestion, outdated infrastructure, safety concerns, and high healthcare costs are increasing. Technology is driving changes through connectivity, sensors, machine learning, and more. Smart cities offer opportunities to improve transportation, infrastructure, energy management, healthcare, education, and other areas. Success requires an integrated, user-centered approach that leverages existing assets and data to both manage current problems and create new solutions for the future.
Global Challenge Porjct Report -Coursework of University of Bristol ssusera0a3b6
Group work in MSc Engineering Management, University of Bristol. This report proposes optimized solutions to the challenges of commuter transport in cities in developing countries to promote a low-carbon transformation.
Building Together Algiers Smart City - Smart Cities Summit 2018 - AlgiersSmart Algiers
This document discusses building a smart city in Algiers, Algeria and outlines some of the challenges facing its development. It describes Huawei's smart city solution which includes key components like a cloud data center, intelligent operation center, IOT infrastructure, and communications network to address issues and help modernize the city. The solution has been implemented in over 100 cities globally.
[e-Government Program City Paper : Abuja, Nigeria]shrdcinfo
This document discusses e-government initiatives in Abuja and Lagos State, Nigeria. It outlines several current e-government programs in Nigeria including e-passports, online land registration, and online services from government agencies. It also discusses the national e-government strategies and goals, and outlines some challenges to implementing e-government programs including lack of infrastructure, coordination issues, and low digital skills. The document proposes strategies to address these challenges such as increasing private sector involvement, improving monitoring and evaluation, expanding internet access, and involving communication professionals. It argues that adopting Seoul's e-government best practices could help Abuja and Lagos State by providing focus, improving quality of life, and contributing to an e-government master plan and
The document discusses recent trends in IoT and sustainability. It covers how IoT can help address challenges facing cities, including growing urban populations and the need for resilient infrastructure. Specific applications of IoT discussed include smart lighting, water monitoring, and expanding internet access. Goals for 2030 include improving infrastructure, making cities sustainable, and increasing access to technology. The document then outlines how IoT can help with issues like transportation, pollution monitoring, and disaster management for smart cities. It provides examples of IoT projects in Visakhapatnam, India and discusses integrating different systems to realize the smart city vision.
All throughout APAC the landscape is changing and presenting a need for smart mobility. Read more in detail to learn how businesses can seize opportunities with the right IT strategy and the right partnership.
Traffic Management And Information Control Centre (TMICC)WaseemAhmad186
The document discusses the objectives and components of a Traffic Management and Information Control Centre (TMICC) in India. The TMICC aims to manage traffic, enforce traffic rules, disseminate travel information to the public, and analyze traffic data. It contains central application software, hardware like video walls and servers, field equipment like traffic signals and CCTV cameras, and utilities like air conditioning. The benefits of a TMICC include improved traffic flow, time savings for commuters, reduced congestion, and lower emissions. Intelligent transportation systems can also be used for applications like electronic toll collection, traffic monitoring, and traveler information systems.
A technical lecture on Information and Technology as enabler for Smart City at Institute of Electronics and Telecommunication Engineers (IETE), Vadodara, Center
Vetiver grass was used to stabilize slopes along the Kiunga–Tabubil Highway in Papua New Guinea that were failing and posing safety hazards due to monsoon rainfall and erosion. Over 900,000 vetiver slips were planted across 15 slopes. This provided a more cost-effective solution than conventional engineering methods. The vetiver plants helped to control erosion and stabilize the slopes, with local communities involved to maintain the areas. Monitoring showed the vetiver was effective at mitigating slope movements. Bioengineering using vetiver grass is now incorporated into the company's yearly road maintenance plan.
This document proposes using vetiver grass to naturally raise the banks of the Ufente River in Italy in a low-cost and efficient manner. It details a plan to implement a rapid rooting system using ready-to-use vetiver hedges produced at a local nursery to raise the embankments over 18 months in three phases. The vetiver hedges will stabilize the soil and act as a natural filtering barrier. There is resistance to using a non-native plant, but vetiver is shown to be the only practical solution and not invasive when properly managed according to established principles.
The document discusses the dissemination of vetiver grass technology in Myanmar by the Myanmar Organic Growers and Producers Association and Myanmar Vetiver Network. Vetiver grass has been promoted as a solution to problems with Myanmar's deteriorating ecosystem by soil and water conservation. Training programs have been conducted for farmers on vetiver grass cultivation and various applications in agriculture, including organic farming, erosion control, water conservation, and strengthening irrigation canals. Vetiver grass has also been used successfully in projects to stabilize slopes at airports and prevent pagoda collapse.
The document provides an overview of the Mohr-Coulomb failure model for soils. It defines key concepts such as the yield function f, plastic potential function g, and plastic multiplier λ used to model plastic strain. It also discusses friction angle φ, dilatancy angle ψ, and how they are related. Additionally, it examines how the intermediate principal stress influences friction angle and describes common drained shear and triaxial tests used to characterize soil shear strength parameters.
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024Sinan KOZAK
Sinan from the Delivery Hero mobile infrastructure engineering team shares a deep dive into performance acceleration with Gradle build cache optimizations. Sinan shares their journey into solving complex build-cache problems that affect Gradle builds. By understanding the challenges and solutions found in our journey, we aim to demonstrate the possibilities for faster builds. The case study reveals how overlapping outputs and cache misconfigurations led to significant increases in build times, especially as the project scaled up with numerous modules using Paparazzi tests. The journey from diagnosing to defeating cache issues offers invaluable lessons on maintaining cache integrity without sacrificing functionality.
International Conference on NLP, Artificial Intelligence, Machine Learning an...gerogepatton
International Conference on NLP, Artificial Intelligence, Machine Learning and Applications (NLAIM 2024) offers a premier global platform for exchanging insights and findings in the theory, methodology, and applications of NLP, Artificial Intelligence, Machine Learning, and their applications. The conference seeks substantial contributions across all key domains of NLP, Artificial Intelligence, Machine Learning, and their practical applications, aiming to foster both theoretical advancements and real-world implementations. With a focus on facilitating collaboration between researchers and practitioners from academia and industry, the conference serves as a nexus for sharing the latest developments in the field.
Embedded machine learning-based road conditions and driving behavior monitoringIJECEIAES
Car accident rates have increased in recent years, resulting in losses in human lives, properties, and other financial costs. An embedded machine learning-based system is developed to address this critical issue. The system can monitor road conditions, detect driving patterns, and identify aggressive driving behaviors. The system is based on neural networks trained on a comprehensive dataset of driving events, driving styles, and road conditions. The system effectively detects potential risks and helps mitigate the frequency and impact of accidents. The primary goal is to ensure the safety of drivers and vehicles. Collecting data involved gathering information on three key road events: normal street and normal drive, speed bumps, circular yellow speed bumps, and three aggressive driving actions: sudden start, sudden stop, and sudden entry. The gathered data is processed and analyzed using a machine learning system designed for limited power and memory devices. The developed system resulted in 91.9% accuracy, 93.6% precision, and 92% recall. The achieved inference time on an Arduino Nano 33 BLE Sense with a 32-bit CPU running at 64 MHz is 34 ms and requires 2.6 kB peak RAM and 139.9 kB program flash memory, making it suitable for resource-constrained embedded systems.
TIME DIVISION MULTIPLEXING TECHNIQUE FOR COMMUNICATION SYSTEMHODECEDSIET
Time Division Multiplexing (TDM) is a method of transmitting multiple signals over a single communication channel by dividing the signal into many segments, each having a very short duration of time. These time slots are then allocated to different data streams, allowing multiple signals to share the same transmission medium efficiently. TDM is widely used in telecommunications and data communication systems.
### How TDM Works
1. **Time Slots Allocation**: The core principle of TDM is to assign distinct time slots to each signal. During each time slot, the respective signal is transmitted, and then the process repeats cyclically. For example, if there are four signals to be transmitted, the TDM cycle will divide time into four slots, each assigned to one signal.
2. **Synchronization**: Synchronization is crucial in TDM systems to ensure that the signals are correctly aligned with their respective time slots. Both the transmitter and receiver must be synchronized to avoid any overlap or loss of data. This synchronization is typically maintained by a clock signal that ensures time slots are accurately aligned.
3. **Frame Structure**: TDM data is organized into frames, where each frame consists of a set of time slots. Each frame is repeated at regular intervals, ensuring continuous transmission of data streams. The frame structure helps in managing the data streams and maintaining the synchronization between the transmitter and receiver.
4. **Multiplexer and Demultiplexer**: At the transmitting end, a multiplexer combines multiple input signals into a single composite signal by assigning each signal to a specific time slot. At the receiving end, a demultiplexer separates the composite signal back into individual signals based on their respective time slots.
### Types of TDM
1. **Synchronous TDM**: In synchronous TDM, time slots are pre-assigned to each signal, regardless of whether the signal has data to transmit or not. This can lead to inefficiencies if some time slots remain empty due to the absence of data.
2. **Asynchronous TDM (or Statistical TDM)**: Asynchronous TDM addresses the inefficiencies of synchronous TDM by allocating time slots dynamically based on the presence of data. Time slots are assigned only when there is data to transmit, which optimizes the use of the communication channel.
### Applications of TDM
- **Telecommunications**: TDM is extensively used in telecommunication systems, such as in T1 and E1 lines, where multiple telephone calls are transmitted over a single line by assigning each call to a specific time slot.
- **Digital Audio and Video Broadcasting**: TDM is used in broadcasting systems to transmit multiple audio or video streams over a single channel, ensuring efficient use of bandwidth.
- **Computer Networks**: TDM is used in network protocols and systems to manage the transmission of data from multiple sources over a single network medium.
### Advantages of TDM
- **Efficient Use of Bandwidth**: TDM all
Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Literature Review Basics and Understanding Reference Management.pptxDr Ramhari Poudyal
Three-day training on academic research focuses on analytical tools at United Technical College, supported by the University Grant Commission, Nepal. 24-26 May 2024
ACEP Magazine edition 4th launched on 05.06.2024Rahul
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KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
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3. •Epidemic outbreak consumes
more and more medical
resources
• Urban traffic
congestion; high road
maintenance costs
• Criminal gangs, drug
trafficking, and protest
marches have put society's
safety in jeopardy
• Electricity supply is either
insufficient or unstable;
inefficient energy
consumption
• High unemployment rate
• Poor administrative efficiency and high fiscal deficit
• Gap between rich and
poor is getting wider
amid sluggish
industrial growth
• Insufficient food safety and regional sanitary
• The gap between urban and rural
education is getting wider and
the support for low-income
minority students is required
• Insufficient infrastructure
• Explosive population growth and high population densities in urban areas
have created a number of social issues such as political and social
unrest, energy scarcity, and a wider education gap between rich and poor
Issues that cities are facing today…
4. Taiwan has over 80% ICT service
penetration rate Internet usage
rate (on household basis)
Taiwan's ICT hardware
market share ranks World
No. 1
Taiwan's ICT Strength is an Important Stepping
Stone on the Path to Smart City
5. e-Taiwan
Taiwan’s Smart City Development
- Past, Now and Future
Development of 4G-based
Smart City
M-Taiwan
2014 - 2016
133M USD
i -Taiwan
Wireless
City
Digital
City
Smart City
2000 Forward-looking Infrastructure
Development Program
2017 - 2020
13.9B USD
Railway, Digital Infrastructure
Green Energy, Aquatic, Urban-Rural….
6. Smart Solutions Deployed in the Cities
• Smart Governance
• Smart Transport
• Smart Healthcare
Taipei City
Category
Application
• Energy
• Transport
• Government
• Healthcare
Online exchange for city property
Public transport app
UI-Taipei
Cloud service
Taichung City
Category
Application
• Government
• Business
• Transport
GIS and disaster rescue
Real-estate info sharing
Demand Responsive
Transit Services
New Taipei City
Category
Application
• Government
• Healthcare
• Surveillance
Service cloud
Healthcare app
Smart surveillance
Category
Application
• Government
• Environment
• Transport
• Lifestyle
Mobile government
Broadband infrastructure
Green transportation
Lifestyle of Health and
Sustainability
Tainan City
Category
Application
• Tourism
• Surveillance
• Healthcare
• Transport
app + QR code
i-Watch
i-Care ATM
i-Traffic
Category
Application
• Government
• Environment
• Transport
• Lifestyle
Mobile government
Broadband infrastructure
Green transportation
Lifestyle of Health and
Sustainability
Taoyuan County
Category
Application
• Transport
• Surveillance
• Healthcare
Intelligent transport system
GIS applications
“Healthy City”
Kaohsiung City
Highlights of local
governments
Hsinchu City
7. Urban Governance Public Service
Urban Transportation Management
Energy Managemet
Environment Management
Others
Macau
CTCI
Singapore
CTCI
Mexico
CTCI
India
CTCI
Japan
CTCI
Indonesia
CTCI
China
CTCI
USA
CTCI, LITEON CTCI, LITEON
UAE
MiTAC
CTCI
Malaysia
Advantech, MiTAC, SYSCOM
Advantech,
MiTAC
Philippines
MiTAC
Advantech,
MiTAC, Wistron
Oman
CTCI
CTCI
Thailand Vietnam
Advantech
FETC
MiTAC
Kazakhstan
FETC
Belarus
FETC
Armenia
MiTAC
MiTAC
Hong Kong
MITAC
FETC, MiTAC
FETC ,MiTAC
Advantech
SYSTECH
TATUNG
Wistron
FETC
Swaziland
ISII
California
LITEON Jordan
LITEON
Panama
LITEON
FETC
GLORY
SAS Sunrise
Germany
GOGORO
Palau
CHT
Korea
FETC
Advantech, MiTAC
Australia
FETC
FETC
FETC
Myanmar
FETC
Iran
FETC
Saudi Arabia
FETC
FETC
Kuwait
FETC
Bosnia and Herzegovina
FETC
CTCI
Russia
Advantech
Advantech
Advantech
Netherlands
Advantech
Brazil
Advantech
Advantech
Poland
Advantech
Advantech
International Smart Solution Deployment Cases
10. • Case: In 2016, cross-border suspects of Taiwan’s First Commercial Bank ATM cyber
hacking were arrested within 7 days thanks to the widespread adoption of video
surveillance systems in Taiwan.
• Smart Police: Taiwan’s homegrown Police Cloud program (M-Police) integrates
video surveillance equipment of all counties and units onto a real-time image
exchange platform and ties to Police Reporting Center and Command Center.
Urban Governance: A Safe Living Community
M-Police Application Requirements
11. Transportation
Options
Public
Transportation
Motorcycle
Scooter
Private/
Rental Car
• Taiwan ITS provides the “seamless, sharing, safe, smooth and
sustainable” intelligent transportation system practices to you…
Transport Management: Intelligent
Transportation System
Departure On the Go Arrival
Vehicle Sharing
Smart Scooter
/Gogoro
Intelligence bus
safety service
Multi-card
e-ticketing
Real-time traffic and
transportation info.
Charger Station
Transfer
Real-time dynamic path planning
navigation services
Electronic
Toll Collection
Integrated real-time
parking info. service
Smart Railway
Service System
Source: IDB, compiled by MIC, Oct. 2016
12. Environmental Management: Blue Skies Green
Earth, Health Sustainability
Waste
Management
Air Pollution
Prevention
Control
Water
Wastewater
Management
Disaster
Mitigation
n Collection and Reporting
of Disaster Information
n Disaster Forecast
Warning Emergency
Response
n Urban Waste
Incineration
n Waste Recycling
n PM2.5 Real-time
Detection
Monitoring
n Industrial Waste Gas
Recycling
n Urban and Industrial
Water/Waste Water
Treatment Recycling
n Sewage Treatment
13. Energy Management: Green Energy Development
Renewable
Energy
5%→20%
Nuclear
Power
12%→0%
Policy Objectives:
n 20% of electricity generated from
renewable energy by 2025
n Promote Taiwan's homegrown renewable
energy power generation equipment
n Development of renewable energy/base
-load supply bundle energy storage
n Continuous and reliable power supply
Source: Green Energy Industry Promotion Center, compiled by SIPA, June. 2017
Vision of Taiwan‘s Green Energy Policy From 2017 to 2025
Action Plan: Green Energy Industry Innovations Project has been
activated and is projected to invest USD 0.8 billion for the period 2017-2024
Energy Saving Power Generation Energy Storage System Integration
16. Mobile
Police
Device
Synchronizing
Cabinet
Mobile
Police
Handheld
Device
Mul9-‐Lane
Fixed
Camera
(Type
C)
Remote Control
Camera
Remote Control
Camera
Real-time Monitoring Command Center
Camera
Real-‐me
Alert
Camera
Integrated 14,000 Cameras at 11,500 selected locations covering
108 police offices in Taipei
Case 1. Smart Surveillance
16
The Solution of Law Enforcement Crime Prevention
17. – Disaster prevention and monitoring solutions include real-time information collection systems,
GIS, disaster prevention and rescue operation, and decision support systems.
– The urban traffic control system provides a dynamic monitoring platform for traffic, GIS and
information on a variety of video and monitoring equipment. Through modular design, the system
integrates multiple traffic information interfaces.
Case 2: Smart Surveillance
Real-Time
Real-Time
Real-time Surveillance System Transportation Management System
The Solution of Disaster Surveillance and Traffic Control
Example of International Integrated Systems
Urban Traffic Control
Disaster Surveillance
Traffic Information
Services
Parking Management
Vehicle Detection
Public Transportation
(Bus)
Real-time Traffic
Monitoring
Traffic Signal
Control
Bridge
Monitor
Center
ETC (Electronic Toll
Collection)
ITS Control
Center
19. Case 1: Extensive Public Transportation Network
There are more than 300 bus routes and
4,000 buses in Taipei City New Taipei
City, carrying 1.55M passengers per day (as
of 2016/12)
There are 230+ stations, 7,700+
YouBikes in Taipei City,
Monthly rentals: 1.53M (2016/09)
For Taipei Metro, currently there are 5 lines and
117 stations with 131.1km operating network
length, supporting daily ridership around 2M (as
of 2016/08)
20. • The surge in traffic has significantly increased road maintenance costs. Hence, it is
imperative to introduce a pay-as-you-go business model to improve traffic management
efficiency
Toll Collection
Devices/eTags
Law Enforce-
ment Module
Car Detection
Device
Toll Collection/
Antenna
Weather/Road/
Traffic Information Information
exchange between
other government
agencies
eTag
ETC
Data
Application
Traffic
Control
Information
Collection
System
Case 2: Electronic Toll Collection (ETC)
• 2016 IRF Global Road Achievement Award – Traffic Management and ITS
• 2016 ISO 9001 Plus Award
• 2015 Smart City Innovation Application Award
• 2015 Toll Excellence Award - Customer Service Marketing Outreach
• 2015 ITS World Congress Hall of Frame – Industry Award
• 2015 RD 100 Award – Software Services
21. Case 3: Intelligent Parking Management System
• Less
air
polluon
in
the
parking
facility
• Faster
turnaround
and
be=er
ulizaon
of
parking
space
results
in
more
income
Intelligent
Parking
Management
System
at
Da-‐An
Park
(Taipei
City)
Example
of
Parktron
Soluon
License
Plate
Recognion
System Parking
Guidance
System
Features
• Detector
and
lamp
are
combined
into
one
unit
• Bi-‐colored
vacancy
lamps
with
360°
emiKng
angle
• Adjustable
detecon
distance
from
0.5~4M
of
vacancy
detectors.
Features
• Increase
the
security
level
of
parking
facility
• Recognion
rate:above
95%
• Recognion
Speeding:0.5~1.5
seconds
• Over
20
countries
and
in
mulple
languages
including
English,
Chinese,
Korean,
Japanese,
Thai,
Spanish
,Portuguese…
23. Case 1 : Micro-gird + Solar System
Micro-‐gird
+
Solar
System
at
Wu-‐Lai
(New
Taipei
City)
Example
of
TATUNG
Soluon
• If
power
is
interrupted
by
disasters,
Micro-‐grid
system
can
automacally
switch
from
grid
to
standalone
mode
and
provide
urgent
and
necessary
electricity
through
solar
energy
and
ba=ery
storage.
Energy
Storage
• High
capacity
of
60kWh
Lithium
ba=ery
Energy
Management
• Accommodate
generaon,
load
and
storage
funcons
• Provide
app
informaon
Renewable
Energy
• 18kW
PV
On-‐grid
and
standalone
switchable
• Provide
electricity
without
the
ulity’s
grid
• Smoothly
switch
between
islanding
and
grid
24. Case 2 : Solar Energy
• “Taipei
Energy
Hill”
project
consists
of
7,680
solar
photovoltaic
panels,
covering
3
hectares
•
It
is
expected
to
generate
2
million
kWh
of
electricity
and
reduce
1,000
ton
carbon
dioxide
emissions
every
year
Taipei
Energy
Hill
at
Wenshan
district
(Taipei
City)
Example
of
TATUNG
Soluon
Green
energy
demonstraon
park
Environmental
restoraon
park
Landfill
site
Advantages
• The
first
solar
power
plant
built
on
the
old
landfill
site
in
Taiwan
• Integrate
the
newly
operated
solar
power
plant
and
its
biogas
power
plant
to
turn
itself
into
the
first
green
energy
demonstraon
park
Coopera9on
mode
• Through
a
public-‐private
partnership,
the
city
government
provided
the
land
where
the
plant
was
built,
and
Tatung
Company
provided
the
panels
26. Forward-looking Infrastructure
Development Program
26
I.
Background
The
government
is
promong
the
“Forward-‐looking
Infrastructure
Development
Program”
to
build
a
new
generaon
of
infrastructure
for
the
naon’s
future.
This
program
includes
funding
for
eight
categories.
Under
the
special
act
governing
forward-‐looking
infrastructure
projects,
promulgated
by
the
president
on
July
7,
2017,
the
program
will
be
funded
by
a
special
budget
of
US$13.9
billion
over
four
years.
The
program
may
be
extended
thereajer,
subject
to
the
Parliament's
approval,
with
a
budget
and
period
not
to
exceed
those
of
the
first
four
years.
The
program
is
expected
to
add
US$15.6
billion
to
the
real
GDP
and
contribung
an
average
0.1
percentage
point
to
real
GDP
in
each
of
the
first
four
years.
II.
Laying
the
foundaons
of
future
naonal
development
The
Forward-‐looking
Infrastructure
Development
Program
will
support
Taiwan’s
economic
development
needs
for
future
by
staying
abreast
of
the
latest
industrial,
technological
and
lifestyle
trends
at
home
and
abroad,
and
by
developing
different
regions
in
a
more
comprehensive,
balanced
manner.
Achieving
these
goals
will
lay
the
foundaon
for
future
naonal
development.
27. A. Green Energy Development
27
Government
investment
of
NT$72
billion
(US$2.25
billion)
over
four
years
1.
Key
infrastructure:
Build
research
and
development
facilies
and
long-‐term
development
bases
for
solar
energy,
wind
power
and
the
Shalun
Green
Energy
Science
and
Technology
City
2.
Benefits:
(1)
Benefits
of
transforming
the
energy
industry:
Industry
transformaon
will
increase
energy
security,
help
create
a
green-‐energy
economy
and
promote
environmental
sustainability
and
social
equality
(2)
Industrial
benefits:
Make
Taiwan
an
important
base
for
the
development
of
green
energy
capabilies
in
Asia
so
that
within
5
to
10
years,
Taiwan
will
play
a
substanve
role
in
the
global
green
energy
industry
28. B. Digital Infrastructure
28
Government
investment
of
NT$47.7
billion
(US$1.50
billion)
over
a
four-‐year
period.
1.
Development
tasks:
Accelerate
digital
grid
development
for
a
domesc
ultra
wideband
network.
2.
Goals:
Provide
fast
and
secure
broadband
and
ultra
wideband
internet
connecvity,
with
cizens’
basic
right
to
access
guaranteed;
introduce
cultural
creavity
and
high
value
products
into
the
industrial
sector;
implement
smart
urban-‐rural
infrastructure
and
set
up
a
digital
learning
environment;
make
the
digital
economy
account
for
25.2
percent
of
GDP
by
the
year
2020;
and
develop
cultural,
creave
and
content
capabilies
into
an
NT-‐trillion
dollar
industry.
29. C. Development of Aquatic Environment
29
Invest
NT$75.3
billion
(US$2.35
billion)
over
an
four-‐year
period.
1.
Development
tasks:
Accelerate
infrastructure
construcon
to
manage
and
supply
water,
and
make
aquac
areas
accessible
2.
Goals:
Create
a
future
that
includes
reliable
water
supplies,
no
flooding,
high-‐quality
drinking
water
and
accessible
aquac
spaces.
30. D. Railway Development
30
NT$49.8
billion
(US$1.55
billion)
over
four
years
constutes
the
largest
investment
of
the
five
major
infrastructure
projects
1.
Development
tasks:
Promote
38
railway
development
plans
in
five
areas:
linking
the
high
speed
and
tradional
rail
systems
into
an
integrated
transportaon
network;
upgrading
and
improving
tradional
rail
service
in
eastern
Taiwan;
adding
grade-‐separated
railway
juncons
and
speeding
up
commute
mes;
and
promong
urban
mass
rapid
transit;
and
promong
a
rail
system
to
support
tourism
in
central
and
southern
Taiwan
2.
Goals:
Make
Taiwan’s
railway
system
a
core
transport
service
that
is
seamless,
safe
and
reliable,
convenient
and
easy
to
use,
and
sustainable.
The
system
should
also
provide
industry
opportunies
and
include
tourist
a=racons
31. E. Urban-Rural Development
31
NT$105
billion
(US$4.68
billion)
investment
over
four
years
(2017-‐2020).
1.
Development
tasks:
Promote
10
major
projects
that
will
resonate
with
the
public
including
resolving
parking
issues;
improving
road
quality;
implemenng
renewal
projects
in
small
and
medium-‐sized
cies
and
towns;
developing
localized
industry
parks;
developing
culture
and
lifestyle
circles;
renovang
campuses
to
opmize
community
access
and
ulizaon;
seKng
up
public
service
bases;
creang
an
environment
that
supports
leisure-‐fitness
lifestyles;
developing
a
Hakka
Romanc
Avenue
along
Provincial
Highway
No.
3;
and
building
infrastructure
for
indigenous
tribes
2.
Goals:
Improve
the
quality
of
public
spaces,
everyday
living
condions
and
Taiwan’s
overall
image