"Analyzing and assessing ecological transition in building sustainable cities" Keynote presentation at "International Conference on Sustainable Environment and Technologies" 23 September 2022, Nicolas Tesla University Union, Belgrade, Serbia
Urban resilience in the digital age: The influence of Information-Communicati...AgboolaPaul3
In the pursuit of advancing urban sustainability within the unique backdrop of Nigeria’s built environment and
its environmental challenges, this study presents the significance of information and communication technology
(ICT). Undertaking this research holds immense importance in illuminating the possibilities inherent in
leveraging ICT to foster urban sustainability. The study’s objectives encompass a comprehensive investigation
into the multifaceted contributions of ICT to urban sustainability, while also delving into its impact on stakeholder
engagement and participation in these sustainability endeavors. Addressing an identified gap, the study
sheds light on the critical nexus between stakeholders’ active involvement and the resulting impact on urban
sustainability. This connection serves as a crucial yet under-explored avenue within the broader discourse on
leveraging ICT for sustainable urban development. The study employs structural equation modeling (SEM) to
evaluate a proposed model and analyze empirical data. The results of the study highlight the critical role of ICTs
in urban sustainability (β = 0.614, R2 = 0.85), demonstrating its capacity to enhance efficiency; which promotes
sustainability practices, and improves the quality of life for urban residents. The findings of this study have
significant implications, as they suggest the potential for optimizing the impact of ICT-based urban environments
to meet the diverse needs and priorities of society as a whole. By leveraging ICT effectively, countries can create a
robust smart environment that contributes to sustainable development and addresses environmental concerns.
To leverage the benefits of ICT, however, appropriate attention should be committed to the execution of smart
urban sustainability through stakeholder participation and involvement. The implication of the study enables the
possibility to optimize the impact of an ICT-based urban environment, thereby creating sustainable and resilient
communities that meet the needs and priorities of all members of society.
EIP Water Action Group City Blueprints September 2013EIP Water
The City Blueprint for Water is a baseline assessment of the sustainability of water management in a city (or other dominantly urban region). The result allows a city to quickly understand how advanced it is in sustainable water management and enables it to compare its status with other leading cities.
This project is one of nine Action Groups selected by the European Commission as an initial EIP Water Action Group.
Sixteen cities/regions have participated so far (August 2013) and many others are being approached. This is an opportunity to take part in a new and innovative programme to help improve city-level water stewardship, in the spirit of smart and sustainable cities.
The basic output is a simple radar chart as shown in the example from Melbourne at the top of this page. The chart provides a quick visual representation of the city’s water stewardship status, and is a tool for easy comparison between cities. It covers 24 key water-related subject areas, such as water footprint, water scarcity, water quality, drinking water availability and wastewater management.
A City Blueprint is just the first step on a journey of communication and cooperation between cities. A key intention is to encourage cities to share their best practices with others, and for all to improve. A website will be developed to facilitate this. All cities are different. Some are advanced in a few or many subject areas. Some have much work to do. The aim is not to highlight failings, but instead to help a city identify areas of focus for improvement, and to learn from the best practices of others, as well as demonstrating and sharing their own best practices.
This article aims to present how to build smart and sustainable cities to provide their rational management, improve the quality of life for the entire population, the sustainable development of the city and the democratization of government decisions with the participation of the entire population. Every city achieves the status of a smart city when its managers consider it as a system and make use of information technology in its planning and control process, counting on the effective support of its population. Every smart city requires the use of information technology with the use of various devices connected to the IoT (Internet of Things) network to manage the city's operations and services rationally and connect with its citizens. Information technology allows city managers to interact directly with their executing agencies and the population and monitor what is happening in the city and how the city is evolving in real time. Information technology must be used to improve the quality, performance and interactivity of urban services, reduce costs and consumption of resources, and increase contact between citizens and government. A smart city can be better prepared to respond to the challenges faced by its managers and its population. Every city will reach the status of a smart city when the city's humanization goals are achieved, with the improvement of the quality of life for the entire population, the city's sustainable development and the democratization of government decisions with the participation of the entire population.
Building Livable Cities : A multi city investigation on ideas that can make Indian cities livable. See: www.theurbanvision.com/blc
Ulhas Rane ,Partner, Envirodesigners described how ”Ecologically Sensitive City Planning” .
Urban resilience in the digital age: The influence of Information-Communicati...AgboolaPaul3
In the pursuit of advancing urban sustainability within the unique backdrop of Nigeria’s built environment and
its environmental challenges, this study presents the significance of information and communication technology
(ICT). Undertaking this research holds immense importance in illuminating the possibilities inherent in
leveraging ICT to foster urban sustainability. The study’s objectives encompass a comprehensive investigation
into the multifaceted contributions of ICT to urban sustainability, while also delving into its impact on stakeholder
engagement and participation in these sustainability endeavors. Addressing an identified gap, the study
sheds light on the critical nexus between stakeholders’ active involvement and the resulting impact on urban
sustainability. This connection serves as a crucial yet under-explored avenue within the broader discourse on
leveraging ICT for sustainable urban development. The study employs structural equation modeling (SEM) to
evaluate a proposed model and analyze empirical data. The results of the study highlight the critical role of ICTs
in urban sustainability (β = 0.614, R2 = 0.85), demonstrating its capacity to enhance efficiency; which promotes
sustainability practices, and improves the quality of life for urban residents. The findings of this study have
significant implications, as they suggest the potential for optimizing the impact of ICT-based urban environments
to meet the diverse needs and priorities of society as a whole. By leveraging ICT effectively, countries can create a
robust smart environment that contributes to sustainable development and addresses environmental concerns.
To leverage the benefits of ICT, however, appropriate attention should be committed to the execution of smart
urban sustainability through stakeholder participation and involvement. The implication of the study enables the
possibility to optimize the impact of an ICT-based urban environment, thereby creating sustainable and resilient
communities that meet the needs and priorities of all members of society.
EIP Water Action Group City Blueprints September 2013EIP Water
The City Blueprint for Water is a baseline assessment of the sustainability of water management in a city (or other dominantly urban region). The result allows a city to quickly understand how advanced it is in sustainable water management and enables it to compare its status with other leading cities.
This project is one of nine Action Groups selected by the European Commission as an initial EIP Water Action Group.
Sixteen cities/regions have participated so far (August 2013) and many others are being approached. This is an opportunity to take part in a new and innovative programme to help improve city-level water stewardship, in the spirit of smart and sustainable cities.
The basic output is a simple radar chart as shown in the example from Melbourne at the top of this page. The chart provides a quick visual representation of the city’s water stewardship status, and is a tool for easy comparison between cities. It covers 24 key water-related subject areas, such as water footprint, water scarcity, water quality, drinking water availability and wastewater management.
A City Blueprint is just the first step on a journey of communication and cooperation between cities. A key intention is to encourage cities to share their best practices with others, and for all to improve. A website will be developed to facilitate this. All cities are different. Some are advanced in a few or many subject areas. Some have much work to do. The aim is not to highlight failings, but instead to help a city identify areas of focus for improvement, and to learn from the best practices of others, as well as demonstrating and sharing their own best practices.
This article aims to present how to build smart and sustainable cities to provide their rational management, improve the quality of life for the entire population, the sustainable development of the city and the democratization of government decisions with the participation of the entire population. Every city achieves the status of a smart city when its managers consider it as a system and make use of information technology in its planning and control process, counting on the effective support of its population. Every smart city requires the use of information technology with the use of various devices connected to the IoT (Internet of Things) network to manage the city's operations and services rationally and connect with its citizens. Information technology allows city managers to interact directly with their executing agencies and the population and monitor what is happening in the city and how the city is evolving in real time. Information technology must be used to improve the quality, performance and interactivity of urban services, reduce costs and consumption of resources, and increase contact between citizens and government. A smart city can be better prepared to respond to the challenges faced by its managers and its population. Every city will reach the status of a smart city when the city's humanization goals are achieved, with the improvement of the quality of life for the entire population, the city's sustainable development and the democratization of government decisions with the participation of the entire population.
Building Livable Cities : A multi city investigation on ideas that can make Indian cities livable. See: www.theurbanvision.com/blc
Ulhas Rane ,Partner, Envirodesigners described how ”Ecologically Sensitive City Planning” .
A Smart City in Indian Context - A Smart city combines the use of software systems, server infrastructure, network infrastructure, and client devices to better connect seven critical city infrastructure components and services: city administration, education, healthcare, public safety, real estate, transportation, and utilities.
Farmers manage large areas of landscapes that are altogether designed by heterogeneous actors. Conflicts may eventually arise in complex regions like the Mediterranean where the urban and agricultural actors’ spaces for action easily overlap and concur for the use and management of soil and water. A territorial or landscape perspective is therefore required to inform the design of land management systems capable to meet the place-based development goals. A greater involvement of agronomy in the landscape arena would help to design landscape management policies that are better informed of farming systems. Our aim is to present a territorial approach that supported a prospective analysis for the design of shared land management actions using the territory game.
- - -
Oral communication presented at the 14th conference of the European Society for Agronomy, Edinburgh 5-9 September 2016: "Growing landscapes: cultivating innovative agricultural systems"
Making Cities Zero Carbon -- issues and optionJIT KUMAR GUPTA
Cities are known for their dualities and contradictions, positivity and negativities, inclusion and exclusion, poverty and prosperity, luxury housing and slums, planned and unplanned development, innovations and depravity, good and bad, pleasant and ugliness. All these contradictions are the outcome of the way we are planning, designing and managing cities. If cities are bringing prosperity, they are also creating global crisis. Majority of global ills of global warming, rising temperature, natural crisis is the outcome of how we are treating the cities. Cities are being conceived as anti-thesis to nature and accordingly they are creating crisis including crisis of very human existence. Cities need to be treated in a better and rational manner by planning and designing them in logical manner. Cities need to be looked as integral part of nature and not looked as a commodity for sale and making profit. Cities not to be treated as a market place where one hopes to earn money and generate wealth. They have to be looked as places for human living – giving human beings an environment, where they can lead happy and healthy life. Cities need to be planned with nature using natural resources. They need to be made more effective and efficient. Cities need to be made producers rather than consumers of natural and non-renewable resources. They need to be made more livable and supportive to human living and nature. Cities need respect and care. We need to heal its wounds. If cites continue to be treated like they are being treated now, they are going to become major source of impending crisis , making human living most challenging on this planet. Accordingly, we need to relook, review, redefine and revise our options of planning, travel and creating built environment.
What are the objectives and need for urban planning.docxShaariq Dotcom
Urban planning is an essential process that shapes the development of our cities and urban areas.
See this article from Shaariq.com for an explanation of urban planning's goals and potential effects ⬇️
https://shaariq.com/what-are-the-objectives-and-need-for-urban-planning/
Shaariq.com is an Enterprise Blockchain Real Estate Company.
We provide verified digitalized Inspection services for Buying, Selling & Renting Properties.
One of the leading blockchain companies in the UAE – Now in Pakistan Real Estate.
Contact & Whatsapp:
(Pakistan) +92 51 220 6020
(UAE) +971 50 495 8085
Visit our website for latest property news updates: www.shaariq.com
Send us your queries at: info@shaariq.com
Follow our social media platforms:
@YouTube|| https://www.youtube.com/@shaariqproperties2966
@Facebook|| https://www.facebook.com/Shaariq2020
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#shaariqcom #shaariqproperties #realestate #blockchain
#PakistanRealEstate #BusinessTycoon
Implementing SDG11 by connecting sustainability policies and urban planning p...ITU
In this guidance document, we study the advantages of using ICT technologies to support the implementation
of the Sustainable Development Goals, namely SDG 11, by facilitating the missing linkages that exist between
sustainability policies and urban-planning practices through digitally-enabled urban actions. These urban
actions will be shaped as recommendations that will put forward physical and non-physical advice to help
the user improve the implementation of both SDG 11 and the New Urban Agenda.
For more information visit: https://www.itu.int/en/ITU-T/ssc/united/Pages/default.aspx
La mobilité dans un monde à 2°C : quel avenir pour les zones périurbaines ?Alicia Bassière
Les voitures occupent une place centrale dans les zones périurbaines en France (et ailleurs dans le monde) : sans elles, les habitants ne peuvent simplement pas y vivre. Ou c’est ce que l’on veut nous faire croire… Quelles sont les alternatives à la voiture individuelle ? Les déplacements en zone périurbaine peuvent-ils réduire leurs émissions de CO2 de manière significative ?
Ce sont autant de questions auxquelles le groupe de travail coordonné par Francisco Luciano pour The Shift Project va tenter de répondre. Ils présenteront les résultats d’une étude argumentée sur le potentiel des alternatives de mobilité bas-carbone en zone périurbaine : un véritable réseau cyclable, le co-voiturage, des transports publics rapides et bien d’autres encore.
Ces conclusions seront présentées puis discutées avec des acteurs majeurs de la mobilité qui discuteront également du futur des voitures individuelles, ainsi que d'autres véhicules, et de leurs possible évolution dans les zones périurbaines.
Lecture 10: Urban Metabolism: Conceptualizing the City as an OrganismESD UNU-IAS
Lecture 10: Urban Metabolism: Conceptualizing the City as an Organism
Dr. Alexandros Gasparatos (University of Tokyo)
2018 ProSPER.Net Young Researchers' School
8 March 2018
GLOBAL VIEW OF A VIBRANT WORLD 360° THE ISSUE Urbanisation FACE TO FACEAdhitya Arjanggi
AN URBAN PLANET:The sustainable city challenge
CITY LIVING: Creating vibrant sustainable cities SECURING CRITICAL INFRASTRUCTURE SOME FOR ALL FOREVER:Water resource management on an urban planet
TRANSFORMING TRANSPORT: The 21st century urban challenge
URBAN ENERGIES RESOURCES DEMAND AND COMMUNITY IMPACTS A 360° face to face interview BUILDING A LEGACY Creating an agile global culture of inventiveness, safety and sustainability
NEW SKILLS MAKE THE SUSTAINABLE DIFFERENCE INSPIRATIONAL ENGINEERING CAPTURING THE VISION
It is in the cities that the social, economic and environmental dimensions of sustainable development converge more intensively, making them necessary to be thought, managed and planned according to the sustainable development model which aims to meet the current needs of the Earth's population without compromising its natural resources, bequeathing them to future generations.
The influence of information and communication technology (ICT) on stakeholde...AgboolaPaul3
It is impossible to overstate the role that smart cities and the building resilience strategy play in the movement
toward environmental sustainability, particularly in industrialized and developing nations. There has been a rise
in the use of efficient systems to enhance built environment control and accomplish infrastructure development
projects, and for this to be successful, countries around the globe, including Nigeria, need robust smart cities and
buildings. Few researchers have looked at how smart cities and building projects might improve the sustainability
practices of Nigeria’s built environment in the context of environmental issues. The major research aim of
this study is to investigate the role of Information and Communication Technology (ICT) in advancing urban
sustainability in the context of Lagos, Nigeria, amidst the city’s rapid population growth and the implementation
of smart city projects. The study’s research questions include the following: First, How can information and
communication technology (ICT) be leveraged to support the development of urban sustainability? Secondly,
what is the impact of ICT on stakeholders’ involvement and participation in urban sustainability? Thirdly, how
can stakeholders’ involvement and participation impact urban sustainability? Structural equation modeling
using partial least squares (SmartPLS 3.0 Edition) as an analysis tool was used to assess the suggested model and
the empirical study results in support of all the hypothesized associations. Results revealed that Information and
Communication Technology (ICT) is positively associated with smart urban sustainability. Also, a positive and
significant influence of ICT on consolidating stakeholder involvement and participation is paramount. Lastly,
smart city and building initiatives have the potential to significantly improve urban sustainability. The implication
of the study enables the possibility to optimize the impact of an ICT-based urban environment, thereby
creating sustainable and resilient communities that meet the needs and priorities of all members of society.
Urban Design for a Greener & Healthier City Antipolo City.pdfPeraltaSheena1
Urban Design for a Greener & Healthier City Antipolo City. Understanding the different problems that come with rapid urbanization, its' impact on the environment, and proposed green solutions to mitigate the negative impact of urbanization.
Focussing Energy Consumers’ Behaviour Change towards Energy Efficiency and Lo...Beniamino Murgante
Focussing Energy Consumers’ Behaviour Change towards Energy Efficiency and Low Carbon Economy: Perspective for Policy Making, Transnational Cooperation and Research.
Beniamino Murgante, Francesco Scorza,
Alessandro Attolico, Federico Amato
Presented at the REAL CORP 2016 - 21st International Conference on Urban Planning
and Regional Development in the Information Society
Smart Cities: New Science for the Cities
Beniamino Murgante
School of Engineering, University of Basilicata
Lecture at the Department of Community and Regional Planning
Smart Cities course - Professor Alenka Poplin
Keynote at the 24th International Conference on Urban Planning and Regional Development in the Information Society
GeoMultimedia 2019, 2-4 April 2019
Karlsruhe Institute of Technology, Germany
More Related Content
Similar to Analyzing and assessing ecological transition in building sustainable cities
A Smart City in Indian Context - A Smart city combines the use of software systems, server infrastructure, network infrastructure, and client devices to better connect seven critical city infrastructure components and services: city administration, education, healthcare, public safety, real estate, transportation, and utilities.
Farmers manage large areas of landscapes that are altogether designed by heterogeneous actors. Conflicts may eventually arise in complex regions like the Mediterranean where the urban and agricultural actors’ spaces for action easily overlap and concur for the use and management of soil and water. A territorial or landscape perspective is therefore required to inform the design of land management systems capable to meet the place-based development goals. A greater involvement of agronomy in the landscape arena would help to design landscape management policies that are better informed of farming systems. Our aim is to present a territorial approach that supported a prospective analysis for the design of shared land management actions using the territory game.
- - -
Oral communication presented at the 14th conference of the European Society for Agronomy, Edinburgh 5-9 September 2016: "Growing landscapes: cultivating innovative agricultural systems"
Making Cities Zero Carbon -- issues and optionJIT KUMAR GUPTA
Cities are known for their dualities and contradictions, positivity and negativities, inclusion and exclusion, poverty and prosperity, luxury housing and slums, planned and unplanned development, innovations and depravity, good and bad, pleasant and ugliness. All these contradictions are the outcome of the way we are planning, designing and managing cities. If cities are bringing prosperity, they are also creating global crisis. Majority of global ills of global warming, rising temperature, natural crisis is the outcome of how we are treating the cities. Cities are being conceived as anti-thesis to nature and accordingly they are creating crisis including crisis of very human existence. Cities need to be treated in a better and rational manner by planning and designing them in logical manner. Cities need to be looked as integral part of nature and not looked as a commodity for sale and making profit. Cities not to be treated as a market place where one hopes to earn money and generate wealth. They have to be looked as places for human living – giving human beings an environment, where they can lead happy and healthy life. Cities need to be planned with nature using natural resources. They need to be made more effective and efficient. Cities need to be made producers rather than consumers of natural and non-renewable resources. They need to be made more livable and supportive to human living and nature. Cities need respect and care. We need to heal its wounds. If cites continue to be treated like they are being treated now, they are going to become major source of impending crisis , making human living most challenging on this planet. Accordingly, we need to relook, review, redefine and revise our options of planning, travel and creating built environment.
What are the objectives and need for urban planning.docxShaariq Dotcom
Urban planning is an essential process that shapes the development of our cities and urban areas.
See this article from Shaariq.com for an explanation of urban planning's goals and potential effects ⬇️
https://shaariq.com/what-are-the-objectives-and-need-for-urban-planning/
Shaariq.com is an Enterprise Blockchain Real Estate Company.
We provide verified digitalized Inspection services for Buying, Selling & Renting Properties.
One of the leading blockchain companies in the UAE – Now in Pakistan Real Estate.
Contact & Whatsapp:
(Pakistan) +92 51 220 6020
(UAE) +971 50 495 8085
Visit our website for latest property news updates: www.shaariq.com
Send us your queries at: info@shaariq.com
Follow our social media platforms:
@YouTube|| https://www.youtube.com/@shaariqproperties2966
@Facebook|| https://www.facebook.com/Shaariq2020
@LinkedIn|| https://www.linkedin.com/company/shaariq/
@Twitter|| https://twitter.com/Shaariq2021
@Instagram|| https://instagram.com/shaariqproperties
@TikTok|| https://www.tiktok.com/@shaariq.com
@Snapchat||https://www.snapchat.com/add/shariqproprtes
@Pinterest ||https://www.pinterest.com/shaariqdotcom/
#shaariqcom #shaariqproperties #realestate #blockchain
#PakistanRealEstate #BusinessTycoon
Implementing SDG11 by connecting sustainability policies and urban planning p...ITU
In this guidance document, we study the advantages of using ICT technologies to support the implementation
of the Sustainable Development Goals, namely SDG 11, by facilitating the missing linkages that exist between
sustainability policies and urban-planning practices through digitally-enabled urban actions. These urban
actions will be shaped as recommendations that will put forward physical and non-physical advice to help
the user improve the implementation of both SDG 11 and the New Urban Agenda.
For more information visit: https://www.itu.int/en/ITU-T/ssc/united/Pages/default.aspx
La mobilité dans un monde à 2°C : quel avenir pour les zones périurbaines ?Alicia Bassière
Les voitures occupent une place centrale dans les zones périurbaines en France (et ailleurs dans le monde) : sans elles, les habitants ne peuvent simplement pas y vivre. Ou c’est ce que l’on veut nous faire croire… Quelles sont les alternatives à la voiture individuelle ? Les déplacements en zone périurbaine peuvent-ils réduire leurs émissions de CO2 de manière significative ?
Ce sont autant de questions auxquelles le groupe de travail coordonné par Francisco Luciano pour The Shift Project va tenter de répondre. Ils présenteront les résultats d’une étude argumentée sur le potentiel des alternatives de mobilité bas-carbone en zone périurbaine : un véritable réseau cyclable, le co-voiturage, des transports publics rapides et bien d’autres encore.
Ces conclusions seront présentées puis discutées avec des acteurs majeurs de la mobilité qui discuteront également du futur des voitures individuelles, ainsi que d'autres véhicules, et de leurs possible évolution dans les zones périurbaines.
Lecture 10: Urban Metabolism: Conceptualizing the City as an OrganismESD UNU-IAS
Lecture 10: Urban Metabolism: Conceptualizing the City as an Organism
Dr. Alexandros Gasparatos (University of Tokyo)
2018 ProSPER.Net Young Researchers' School
8 March 2018
GLOBAL VIEW OF A VIBRANT WORLD 360° THE ISSUE Urbanisation FACE TO FACEAdhitya Arjanggi
AN URBAN PLANET:The sustainable city challenge
CITY LIVING: Creating vibrant sustainable cities SECURING CRITICAL INFRASTRUCTURE SOME FOR ALL FOREVER:Water resource management on an urban planet
TRANSFORMING TRANSPORT: The 21st century urban challenge
URBAN ENERGIES RESOURCES DEMAND AND COMMUNITY IMPACTS A 360° face to face interview BUILDING A LEGACY Creating an agile global culture of inventiveness, safety and sustainability
NEW SKILLS MAKE THE SUSTAINABLE DIFFERENCE INSPIRATIONAL ENGINEERING CAPTURING THE VISION
It is in the cities that the social, economic and environmental dimensions of sustainable development converge more intensively, making them necessary to be thought, managed and planned according to the sustainable development model which aims to meet the current needs of the Earth's population without compromising its natural resources, bequeathing them to future generations.
The influence of information and communication technology (ICT) on stakeholde...AgboolaPaul3
It is impossible to overstate the role that smart cities and the building resilience strategy play in the movement
toward environmental sustainability, particularly in industrialized and developing nations. There has been a rise
in the use of efficient systems to enhance built environment control and accomplish infrastructure development
projects, and for this to be successful, countries around the globe, including Nigeria, need robust smart cities and
buildings. Few researchers have looked at how smart cities and building projects might improve the sustainability
practices of Nigeria’s built environment in the context of environmental issues. The major research aim of
this study is to investigate the role of Information and Communication Technology (ICT) in advancing urban
sustainability in the context of Lagos, Nigeria, amidst the city’s rapid population growth and the implementation
of smart city projects. The study’s research questions include the following: First, How can information and
communication technology (ICT) be leveraged to support the development of urban sustainability? Secondly,
what is the impact of ICT on stakeholders’ involvement and participation in urban sustainability? Thirdly, how
can stakeholders’ involvement and participation impact urban sustainability? Structural equation modeling
using partial least squares (SmartPLS 3.0 Edition) as an analysis tool was used to assess the suggested model and
the empirical study results in support of all the hypothesized associations. Results revealed that Information and
Communication Technology (ICT) is positively associated with smart urban sustainability. Also, a positive and
significant influence of ICT on consolidating stakeholder involvement and participation is paramount. Lastly,
smart city and building initiatives have the potential to significantly improve urban sustainability. The implication
of the study enables the possibility to optimize the impact of an ICT-based urban environment, thereby
creating sustainable and resilient communities that meet the needs and priorities of all members of society.
Urban Design for a Greener & Healthier City Antipolo City.pdfPeraltaSheena1
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Fino alla fine degli anni '80 un urbanista che cercava di supportare dei ragionamenti di piano con l'informatica riusciva ad ottenere, nel migliore dei casi, qualche dato statistico sulla popolazione. Con il trascorrere degli anni si è assistito ad un incremento dell'utilizzo delle tecnologie per la costruzione dei quadri conoscitivi a supporto del processo di piano, fino a raggiungere l'attuale Information Explosion Era.
Il contenuto dell'intervento si baserà su aspetti teorici ed applicativi a partire dall'esperienza di Ian McHarg fino all'ultima "moda" delle Smart Cities.
Introduzione
Andreina Maahsen-Milan
Università di Bologna
Tecnologie, Territorio, Smartness
Beniamino Murgante
Università della Basilicata
Facoltà Ingegneria Edile di Ravenna - Università di Bologna
Via Tombesi dall'Ova 55, 48121 Ravenna
Le città e le Smart cities: il punto di vista di un planner, Beniamino MurganteBeniamino Murgante
3DGIS - Costruire le smart city: azioni concrete per progetti intelligenti
giovedì 7 febbraio 2013 dalle 9.30 alle 13.00
presso la Sala Convegni della BCC di Piove di Sacco
in via A. Valerio 78 a Piove di Sacco (PD).
WRI’s brand new “Food Service Playbook for Promoting Sustainable Food Choices” gives food service operators the very latest strategies for creating dining environments that empower consumers to choose sustainable, plant-rich dishes. This research builds off our first guide for food service, now with industry experience and insights from nearly 350 academic trials.
Characterization and the Kinetics of drying at the drying oven and with micro...Open Access Research Paper
The objective of this work is to contribute to valorization de Nephelium lappaceum by the characterization of kinetics of drying of seeds of Nephelium lappaceum. The seeds were dehydrated until a constant mass respectively in a drying oven and a microwawe oven. The temperatures and the powers of drying are respectively: 50, 60 and 70°C and 140, 280 and 420 W. The results show that the curves of drying of seeds of Nephelium lappaceum do not present a phase of constant kinetics. The coefficients of diffusion vary between 2.09.10-8 to 2.98. 10-8m-2/s in the interval of 50°C at 70°C and between 4.83×10-07 at 9.04×10-07 m-8/s for the powers going of 140 W with 420 W the relation between Arrhenius and a value of energy of activation of 16.49 kJ. mol-1 expressed the effect of the temperature on effective diffusivity.
Willie Nelson Net Worth: A Journey Through Music, Movies, and Business Venturesgreendigital
Willie Nelson is a name that resonates within the world of music and entertainment. Known for his unique voice, and masterful guitar skills. and an extraordinary career spanning several decades. Nelson has become a legend in the country music scene. But, his influence extends far beyond the realm of music. with ventures in acting, writing, activism, and business. This comprehensive article delves into Willie Nelson net worth. exploring the various facets of his career that have contributed to his large fortune.
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Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
Nelson's initial foray into the music industry was fraught with challenges. He moved to Nashville, Tennessee, to pursue his dreams, but success did not come . Working as a songwriter, Nelson penned hits for other artists. which helped him gain a foothold in the competitive music scene. His songwriting skills contributed to his early earnings. laying the foundation for his net worth.
Rise to Stardom
Breakthrough Albums
The 1970s marked a turning point in Willie Nelson's career. His albums "Shotgun Willie" (1973), "Red Headed Stranger" (1975). and "Stardust" (1978) received critical acclaim and commercial success. These albums not only solidified his position in the country music genre. but also introduced his music to a broader audience. The success of these albums played a crucial role in boosting Willie Nelson net worth.
Iconic Songs
Willie Nelson net worth is also attributed to his extensive catalog of hit songs. Tracks like "Blue Eyes Crying in the Rain," "On the Road Again," and "Always on My Mind" have become timeless classics. These songs have not only earned Nelson large royalties but have also ensured his continued relevance in the music industry.
Acting and Film Career
Hollywood Ventures
In addition to his music career, Willie Nelson has also made a mark in Hollywood. His distinctive personality and on-screen presence have landed him roles in several films and television shows. Notable appearances include roles in "The Electric Horseman" (1979), "Honeysuckle Rose" (1980), and "Barbarosa" (1982). These acting gigs have added a significant amount to Willie Nelson net worth.
Television Appearances
Nelson's char
Natural farming @ Dr. Siddhartha S. Jena.pptxsidjena70
A brief about organic farming/ Natural farming/ Zero budget natural farming/ Subash Palekar Natural farming which keeps us and environment safe and healthy. Next gen Agricultural practices of chemical free farming.
"Understanding the Carbon Cycle: Processes, Human Impacts, and Strategies for...MMariSelvam4
The carbon cycle is a critical component of Earth's environmental system, governing the movement and transformation of carbon through various reservoirs, including the atmosphere, oceans, soil, and living organisms. This complex cycle involves several key processes such as photosynthesis, respiration, decomposition, and carbon sequestration, each contributing to the regulation of carbon levels on the planet.
Human activities, particularly fossil fuel combustion and deforestation, have significantly altered the natural carbon cycle, leading to increased atmospheric carbon dioxide concentrations and driving climate change. Understanding the intricacies of the carbon cycle is essential for assessing the impacts of these changes and developing effective mitigation strategies.
By studying the carbon cycle, scientists can identify carbon sources and sinks, measure carbon fluxes, and predict future trends. This knowledge is crucial for crafting policies aimed at reducing carbon emissions, enhancing carbon storage, and promoting sustainable practices. The carbon cycle's interplay with climate systems, ecosystems, and human activities underscores its importance in maintaining a stable and healthy planet.
In-depth exploration of the carbon cycle reveals the delicate balance required to sustain life and the urgent need to address anthropogenic influences. Through research, education, and policy, we can work towards restoring equilibrium in the carbon cycle and ensuring a sustainable future for generations to come.
DRAFT NRW Recreation Strategy - People and Nature thriving together
Analyzing and assessing ecological transition in building sustainable cities
1. Beniamino Murgante
School of Engineering, University of Basilicata
beniamino.murgante@unibas.it
http://oldwww.unibas.it/utenti/murgante/Benny.html
https://www.researchgate.net/profile/Beniamino_Murgante
Analyzing and assessing ecological transition
in building sustainable cities
2. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
3. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
4. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
5. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
6. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
7. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
8. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
9. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
10. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
11. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
12. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
13. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
14. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
15. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
16. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
17. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Potenza 175,43 km2 64786 inhabitants
18. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Ferrara 405.16 km2
131091 inhabitants
20. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Education, Economy and Finance, Health, Sport and Leisure
22. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Distribution (%) of trips by means of transport used and city size (population)
Car
Motorbike
bike
Walking Public Transport
Car
Motorbike
bike
Walking Public Transport
23. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Education, Economy and Finance,
Health, Sport and Leisure
24. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
25. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
26. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
27. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
https://www.theguardian.com/cities
/2018/mar/19/urban-explosion-
kinshasa-el-alto-growth-mexico-city-
bangalore-lagos
28. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
https://www.theguardian.com/cities/2018/mar
/19/urban-explosion-kinshasa-el-alto-growth-
mexico-city-bangalore-lagos
29. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
https://www.theguardian.com/cities/2018/mar/19/plan-big-city-disease-populations-fall-beijing-shanghai
30. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
31. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
32. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
33. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F., Pontrandolfi, P., Murgante, B., 2015, Supporting planning activities with the
assessment and the prediction of urban sprawl using spatio-temporal analysis, Ecological
Informatics, Volume 30, November 2015, Pages 365–378 doi:10.1016/j.ecoinf.2015.07.004
34. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F., Pontrandolfi, P., Murgante, B., 2015, Supporting planning activities with the
assessment and the prediction of urban sprawl using spatio-temporal analysis, Ecological
Informatics, Volume 30, November 2015, Pages 365–378 doi:10.1016/j.ecoinf.2015.07.004
35. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F., Pontrandolfi, P., Murgante, B., 2015, Supporting planning activities with the
assessment and the prediction of urban sprawl using spatio-temporal analysis, Ecological
Informatics, Volume 30, November 2015, Pages 365–378 doi:10.1016/j.ecoinf.2015.07.004
Quantity of
built-up
areas [ha]
measured at
different
times.
36. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
37. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Results
Calibration
Coefficients
Growth simulation
cycles
Initial
patterns
Land Use/Land
Cover change
model,
SLEUTH
38. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Maimone, B.A.; Martellozzo, F.;
Nolè, G.; Murgante, B. (2016) The Effects
of Urban Policies on the Development of
Urban Areas. Sustainability 2016, 8, 297.
doi:10.3390/su8040297
39. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Maimone, B.A.; Martellozzo, F.; Nolè, G.; Murgante, B. (2016) The Effects
of Urban Policies on the Development of Urban Areas. Sustainability 2016, 8, 297.
doi:10.3390/su8040297
40. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Maimone, B.A.;
Martellozzo, F.; Nolè, G.;
Murgante, B. (2016) The
Effects of Urban Policies on
the Development of Urban
Areas. Sustainability 2016,
8, 297.
doi:10.3390/su8040297
41. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Scorza F., Las Casas G., Murgante B., Amato F., (2019) "City Dashboards for Urban Planning"
Journal of Urban Technology DOI 10.1080/10630732.2019.1614895
42. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Maimone, B.A.; Martellozzo, F.; Nolè, G.; Murgante, B. (2016) The Effects
of Urban Policies on the Development of Urban Areas. Sustainability 2016, 8, 297.
doi:10.3390/su8040297
43. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Maimone, B.A.; Martellozzo, F.; Nolè, G.; Murgante, B. (2016) The Effects
of Urban Policies on the Development of Urban Areas. Sustainability 2016, 8, 297.
doi:10.3390/su8040297
44. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
45. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Martellozzo, F.; Murgante B.; Clarke, K. (2018) Balancing urban expansion against agriculture
and natural land loss: Scenario-based Modelling of urbanization and ecological losses in Italy to
2030 Applied Geography 91, pp. 156-167 DOI: 10.1016/j.apgeog.2017.12.004
46. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Martellozzo, F.; Murgante B.; Clarke, K. (2018) Balancing urban expansion against agriculture
and natural land loss: Scenario-based Modelling of urbanization and ecological losses in Italy to
2030 Applied Geography 91, pp. 156-167 DOI: 10.1016/j.apgeog.2017.12.004
The Number of Total Transactions (NTT).
The Housing Market Index (HMI), which consists in the ration of NTT with the
stock of residential unit existing in a specific territorial unit.
Code of Cultural
and Landscape
Heritage
The Natura 2000
Project
Housing Market
Index
Areas within a 300m buffer from the coastal line (CBCPa).
Areas within a 300m buffer from the coastal line of lakes (CBCPb).
Water streams, river zones and areas within a buffer of 150m from these (CBCPc).
Glaciers and perennial snow areas (CBCPd).
National and regional reserves and parks (CBCPe).
Forests and woodlands (CBCPf).
Wetlands (CBCPg).
Sites of Community Importance (SCIs) and Special Areas of Conservation (SACs).
SACs are usually included within SCIs.
Special Protection Areas (SPAs). In Italy, these areas cover about 19% of inland
and 4% of marine areas.
Important Bird Areas (IBA)
𝑆!"# = ∑$
%
𝑊$ ∗ 𝑉$
𝑆!"# is the value assumed by each pixels of the synthesis map
𝑊$ is the weight of ith criteria
𝑉$ is the value of the map representing the ith criteria at any given location
47. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Martellozzo, F.; Murgante B.;
Clarke, K. (2018) Balancing urban
expansion against agriculture and natural
land loss: Scenario-based Modelling of
urbanization and ecological losses in Italy
to 2030 Applied Geography 91, pp. 156-
167 DOI: 10.1016/j.apgeog.2017.12.004
Scenario
conservation
Scenario
BAU/diffusion
CBCPa 0,112 0,085
CBCPb 0,112 0,085
CBCPc 0,112 0,085
CBCPd 0,112 0,085
CBCPe 0,112 0,085
CBCPf 0,112 0,085
CBCPg 0,112 0,085
SCIs 0,047 0,033
SPAs 0,047 0,033
IBA 0,031 0,022
HMI 0,02 0,32
Criteria’s weights resulting from the AHP
and used for the scenario conservation
and for the scenario BAU/diffusion.
48. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Martellozzo, F.; Murgante
B.; Clarke, K. (2018) Balancing urban
expansion against agriculture and
natural land loss: Scenario-based
Modelling of urbanization and
ecological losses in Italy to
2030 Applied Geography 91, pp. 156-
167 DOI: 10.1016/j.apgeog.2017.12.004
49. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Martellozzo, F.; Murgante B.; Clarke, K. (2018) Balancing urban expansion against agriculture and
natural land loss: Scenario-based Modelling of urbanization and ecological losses in Italy to 2030 Applied
Geography 91, pp. 156-167 DOI: 10.1016/j.apgeog.2017.12.004
50. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Amato, F.; Martellozzo, F.; Murgante B.; Clarke, K. (2018) Balancing urban expansion against agriculture and natural
land loss: Scenario-based Modelling of urbanization and ecological losses in Italy to 2030 Applied Geography 91, pp.
156-167 DOI: 10.1016/j.apgeog.2017.12.004
LUCC dynamics between 2012 and 2030
according to the Diffusion scenario
LUCC dynamics between 2012 and 2030
according to the Conservation scenario
51. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
52. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Urban sprawl vs Urban sprinkling
Urban sprawl Urban sprinkling
Urban sprawl: “the spreading of urban developments (such as houses and
shopping centers) on undeveloped land near a city”
Urban sprinkling: “a small quantity distributed in drops or
scattered particles”
53. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Building density
and population
density
Year Population (No.) Residential Buildings [BR] (n) Dp (Inhabitants/ha) Db (BR/ha)
1950 627,586 117,687 0.63 0.12
1989 610,186 238,603 0.61 0.24
1998 597,468 269,019 0.60 0.27
2006 591,338 285,072 0.59 0.28
2013 578,391 297,810 0.58 0.30
54. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
55. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
56. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
57. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
58. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
59. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
60. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
61. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
62.
63. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
64. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
65. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Pilogallo, A., Saganeiti, Pontradolfi P. Scorza F., Murgante B., Comparing territorial performances of
Renewable Energy Sources' plants with integrated Ecosystem Services losses assessment: Melfi
municipality sample area in Basilicata region (Italy). Sustainable Cities and Society.
DOI:10.1016/j.scs.2020.102082
66. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Pilogallo, A., Saganeiti,
Pontradolfi P. Scorza F., Murgante
B., Comparing territorial
performances of Renewable
Energy Sources' plants with
integrated Ecosystem Services
losses assessment: Melfi
municipality sample area in
Basilicata region (Italy).
Sustainable Cities and Society
DOI:10.1016/j.scs.2020.102082
67. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Pilogallo, A., Saganeiti,
Pontradolfi P. Scorza F., Murgante
B., Comparing territorial
performances of Renewable
Energy Sources' plants with
integrated Ecosystem Services
losses assessment: Melfi
municipality sample area in
Basilicata region (Italy).
Sustainable Cities and Society
DOI:10.1016/j.scs.2020.102082
68. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Pilogallo, A., Saganeiti, Pontradolfi P. Scorza F., Murgante B., Comparing territorial performances of
Renewable Energy Sources' plants with integrated Ecosystem Services losses assessment: Melfi
municipality sample area in Basilicata region (Italy). Sustainable Cities and Society
DOI:10.1016/j.scs.2020.102082
69. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Pilogallo, A., Saganeiti,
Pontradolfi P. Scorza F., Murgante
B., Comparing territorial
performances of Renewable
Energy Sources' plants with
integrated Ecosystem Services
losses assessment: Melfi
municipality sample area in
Basilicata region (Italy).
Sustainable Cities and Society
DOI:10.1016/j.scs.2020.102082
biodiversity
carbon storage agricultural vocation
70. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Energy village in Calvello
71. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Energy village in Calvello
72. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Energy village in Calvello
73. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Energy village in Calvello
74. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
Energy village in Calvello
75. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
76. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
77. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
78. Analyzing and assessing ecological
transition in building sustainable cities
Beniamino Murgante
79. Beniamino Murgante
School of Engineering, University of Basilicata
beniamino.murgante@unibas.it
http://oldwww.unibas.it/utenti/murgante/Benny.html
https://www.researchgate.net/profile/Beniamino_Murgante
Thank you for the attention