The document provides information about a group presentation on Techno Park. It lists the group members and their registration numbers. The topic of the presentation is "Techno Park". The agenda includes an introduction on the definition, history, vision, mission, purpose, benefits, and how it differs from other parks. It then provides details on Dubai Techno Park, including its location, vision, mission, activities, and advantages. It also briefly summarizes Kerala Techno Park in India and East Azerbaijan Science & Technology Park in Iran.
The document discusses the origin and growth of IT parks in India. It provides details on the first IT park established in India in Bangalore in partnership with Tata Industries, Singapore Consortium, and Karnataka Industrial Areas Development Board. It outlines the key IT parks established across major cities in India and the facilities and infrastructure provided in these parks. The future of IT parks and their role in promoting India as a global IT hub is also mentioned.
Bangalore is the capital of Karnataka state located in south-eastern India. It has experienced rapid population and economic growth in recent decades, transforming from a garden city to a major tech hub nicknamed the "Silicon Valley of India." Key challenges facing the city include inadequate and deteriorating infrastructure like water supply, sewage, drainage, and transportation to support its growing population. Rapid urbanization has also negatively impacted the environment through issues such as increased pollution, loss of green spaces, and rising temperatures.
This presentation is glimpse of Surat City located in Gujarat, India.
It consist of Economy, Industrial, Diamond and Textile business in Surat.
It consist of future Surat railway station.
Tapi River, Flyovers, and unique history of Surat.
Surat food like A-one coco Khaman, Locho, Khaja, Ghari.
It also include annual weather chart of Surat City.
Indore as a city is the most crowded in the state of Madhya Pradesh. The city fills in as the base camp of Indore District and Indore Division. The population density of the city is about 25,710 persons per square kilometre. The population growth has been exceptional in the present years... https://indiapopulation2019.com/population-of-indore-2019.html
IT parks in India have been established to facilitate the development of IT industries through synergistic clustering. Major IT parks include International Tech Park in Bangalore, International Tech Park Chennai, Hitec City in Hyderabad, and DLF IT Park in Kolkata. Rajiv Gandhi Chandigarh Technology Park was created to provide world-class infrastructure for leading technology companies to set up facilities in Chandigarh.
Urban Case study of Sector 3 KurukshetraDhir Dhwaj
The document provides an overview of Sector 3 in Kurukshetra, Haryana, India. It analyzes various aspects of the sector's physical and social infrastructure including its location, demographics, land use, built form, physical infrastructure, and social/cultural aspects. Some key findings are that the sector has a high population density compared to the district and state, residential land makes up over half the sector, and infrastructure like water, electricity, and drainage are generally adequate with some room for improvement. Case studies of a residence, school, community center, and temple provide examples of the built forms within the sector.
This document provides information about the city of Rourkela in Odisha, India. It discusses the history and establishment of Rourkela as a steel city in 1961. It describes the acquisition of land from villages to establish the steel plant and residential areas. It outlines the growth of the city over time from the 1950s to the present. It analyzes the morphology, land use, pathways, edges, districts, nodes, and landmarks of Rourkela. It also discusses the socio-cultural aspects of the population and important heritage and cultural events in the city.
The Structure of the Presentation:
Introduction to Master Plan
Location
Physiography
Factors for growth potential of NOIDA
Regional setting of NOIDA
Objectives
Population Growth
Development Constraints
Planning and design concept
Salient Features
Land Use Statistics
Proposals
Conclusion
The document discusses the origin and growth of IT parks in India. It provides details on the first IT park established in India in Bangalore in partnership with Tata Industries, Singapore Consortium, and Karnataka Industrial Areas Development Board. It outlines the key IT parks established across major cities in India and the facilities and infrastructure provided in these parks. The future of IT parks and their role in promoting India as a global IT hub is also mentioned.
Bangalore is the capital of Karnataka state located in south-eastern India. It has experienced rapid population and economic growth in recent decades, transforming from a garden city to a major tech hub nicknamed the "Silicon Valley of India." Key challenges facing the city include inadequate and deteriorating infrastructure like water supply, sewage, drainage, and transportation to support its growing population. Rapid urbanization has also negatively impacted the environment through issues such as increased pollution, loss of green spaces, and rising temperatures.
This presentation is glimpse of Surat City located in Gujarat, India.
It consist of Economy, Industrial, Diamond and Textile business in Surat.
It consist of future Surat railway station.
Tapi River, Flyovers, and unique history of Surat.
Surat food like A-one coco Khaman, Locho, Khaja, Ghari.
It also include annual weather chart of Surat City.
Indore as a city is the most crowded in the state of Madhya Pradesh. The city fills in as the base camp of Indore District and Indore Division. The population density of the city is about 25,710 persons per square kilometre. The population growth has been exceptional in the present years... https://indiapopulation2019.com/population-of-indore-2019.html
IT parks in India have been established to facilitate the development of IT industries through synergistic clustering. Major IT parks include International Tech Park in Bangalore, International Tech Park Chennai, Hitec City in Hyderabad, and DLF IT Park in Kolkata. Rajiv Gandhi Chandigarh Technology Park was created to provide world-class infrastructure for leading technology companies to set up facilities in Chandigarh.
Urban Case study of Sector 3 KurukshetraDhir Dhwaj
The document provides an overview of Sector 3 in Kurukshetra, Haryana, India. It analyzes various aspects of the sector's physical and social infrastructure including its location, demographics, land use, built form, physical infrastructure, and social/cultural aspects. Some key findings are that the sector has a high population density compared to the district and state, residential land makes up over half the sector, and infrastructure like water, electricity, and drainage are generally adequate with some room for improvement. Case studies of a residence, school, community center, and temple provide examples of the built forms within the sector.
This document provides information about the city of Rourkela in Odisha, India. It discusses the history and establishment of Rourkela as a steel city in 1961. It describes the acquisition of land from villages to establish the steel plant and residential areas. It outlines the growth of the city over time from the 1950s to the present. It analyzes the morphology, land use, pathways, edges, districts, nodes, and landmarks of Rourkela. It also discusses the socio-cultural aspects of the population and important heritage and cultural events in the city.
The Structure of the Presentation:
Introduction to Master Plan
Location
Physiography
Factors for growth potential of NOIDA
Regional setting of NOIDA
Objectives
Population Growth
Development Constraints
Planning and design concept
Salient Features
Land Use Statistics
Proposals
Conclusion
Jamshedpur is located in the state of Jharkhand, India. It has a population of over 1.3 million people and was established in 1908 as the site for Tata Steel, India's first and largest steel manufacturing plant. Jamshedpur has developed into a major industrial city with Tata Steel and other associated industries like Tata Motors forming the economic backbone. The city was planned with wide streets, parks, and separate areas for religious structures in line with Tata's vision. Jamshedpur faces some infrastructure challenges around sanitation and waste management but remains an important industrial and economic center in eastern India.
This document summarizes the evolution of town planning laws and development in India, including key acts, guidelines, and issues. It discusses:
- The origins of town planning laws in 1920 and the influence of Sir Patrick Geddes in establishing improvement trusts and town planning acts.
- The 1962 Model Town and Regional Planning and Development Law that formed the basis for state town planning acts.
- The 1985 revised Model Regional and Town Planning and Development Law that many states have enacted town planning acts based on.
- Issues around compliance with the 74th Constitutional Amendment Act and emerging topics like inclusive planning and disaster management plans.
Vadodara is an important industrial and cultural center located in western India. The key industries include chemicals and petrochemicals, pharmaceuticals, textiles, engineering and food processing. Vadodara has large reserves of minerals like dolomite and fluorspar that support these industries. Major companies like Gujarat Alkalis and Chemicals Ltd. and Gujarat State Fertilizers & Chemicals Ltd. have manufacturing plants in Vadodara. The district also has a thriving agriculture sector growing crops like cotton, cereals, pulses and fruits. Recent investments have focused on sectors such as infrastructure, glass and transportation.
Surat is an important economic hub located in Gujarat, India. It was previously known as Suryapur and is famous for its textile and diamond industries. Surat has a population of over 4.5 million and has the second largest economy in Gujarat, after Ahmedabad. Key industries include diamond cutting and polishing, textiles like silk, and other sectors like petroleum and information technology. Surat has seen rapid economic growth and was awarded the cleanest city in India in 2016.
The document discusses various IT parks located across India. It provides details about prominent IT parks such as Hitec City in Hyderabad, the largest IT park in India. It also discusses International Tech Parks in Chennai and Bangalore developed by Ascendas and International Tech Park Ltd. respectively. The document further mentions other major IT parks located in cities including Bangalore, Kolkata, Chandigarh, Ludhiana and their focus on providing infrastructure and facilities to attract IT and related industries.
City profile of chennai- history,demograpgy,census and transportation and issues in chennai
Note: animation content download and see slide only in slide show for more brief
Chandigarh City is one of the most significant urban planning experiments of the 20th century, and the only one of Le Corbusier's planning schemes to be fully realized. It was designed to be the capital of Punjab after its division, with Le Corbusier's master plan dividing the city into sectors focused around circulation, living, working, leisure, and governance. Key features include the Capitol Complex administrative center, City Centre commercial hub, and a network of roads classified by function. Landscaping and architectural aesthetics were an important part of Le Corbusier's vision for the planned city.
The document discusses satellite towns, which are smaller metropolitan areas located near but independent from larger cities. Satellite towns help decentralize populations and activities to reduce overcrowding in major cities. They have local governance and facilities, but rely on parent cities for some employment and education. The document outlines the need for satellite towns due to urban growth issues, and describes their characteristics, objectives in developing infrastructure, and the process of city and regional planning to integrate satellite towns with parent cities.
The document discusses plans for the Dholera Special Investment Region (SIR) in Gujarat, India. The key points are:
- Dholera SIR is being developed as a global manufacturing and trading hub across 920 square kilometers to attract investment and create jobs.
- The development plan focuses on world-class infrastructure to protect local industries and improve quality of life.
- The goals are to double employment, triple industrial output, and quadruple exports from the region in five years.
- Several industries have committed large investments totaling hundreds of billions of rupees towards developing industrial parks and sectors like automotive, electronics, pharmaceuticals, and IT in Dholera SIR
The document provides an overview of the morphological evolution and spatial development of Bengaluru (Bangalore) city in India. It discusses how the city began as a small fort established in 1537, and over time expanded through population growth and economic development to become a large metropolis. The document outlines Bengaluru's transformation from a historic town organized around markets or "petes" into a modern city with a concentric structure defined by radial roads and ring roads. It focuses specifically on the development of M.G. Road as a prominent commercial area at the center of the city and discusses landmarks along the road.
Vadodara is an important industrial center in Gujarat located on the banks of the Vishwamitri River, with a focus on chemicals, petrochemicals, pharmaceuticals, and biotechnology. The district has well-developed industrial infrastructure including special economic zones, industrial parks and estates to support major private and public sector industries. Vadodara's strategic location along key transport corridors and proximity to major cities, along with availability of skilled labor and raw materials, make it well-positioned to attract further industrial investment and economic growth.
This document provides an overview of the town planning of Bangalore City, India. It discusses Bangalore's origin and evolution from a mud fort established in 1537 to becoming known as the "Silicon Valley of India". The document outlines Bangalore's climate and topography. It describes the city's growth from a garden city to a major tech hub. Key aspects of Bangalore's planning are highlighted such as its five concentric belts of development and transportation infrastructure. Different master plans for the city are also summarized.
Bangalore has a long history dating back to the 9th century. It was founded in the 15th century by Kempe Gowda who built a mud fort. In the 16th century, Aurangzeb captured the city. Later, the Wodeyars ruled Bangalore and developed landmarks like Lal Bagh garden. In the 19th century, the British took control and developed infrastructure. Modern Bangalore owes its growth to pioneers like Viswesraya. The city is now well-connected by air, rail and road and has a structured development plan organized around five concentric belts and major roads.
Nagpur is the third most populous city in the state of Maharashtra, India. It has a population of over 3 million people and a literacy rate of 93.13%, one of the highest in India. Nagpur has a hot tropical climate with average temperatures ranging from 20-40 degrees Celsius. The city has a diverse economy including banking, cargo transport, and being an important industrial hub. Nagpur contains several wildlife reserves surrounding it and is a center for both Hindu and Buddhist religious sites and festivals in the region.
Patna, formerly known as Pataliputra, has a long history as the capital of ancient Indian powers. It was founded in 490 BCE by King Ajatshatru of the Magadha dynasty and became one of the largest cities in the world under the Mauryan Empire in the 3rd century BCE. Its strategic location at the confluence of the Ganges, Gandak, and Sone rivers allowed it to dominate riverine trade. Over the centuries, Patna was ruled by several dynasties and declined in the 7th century CE before being revived by Sher Shah Suri in the 16th century. It has long been an important agricultural and trade center, and its economy has grown significantly in
Bangalore city has grown rapidly from a population of around 1 million in 1950 to over 10 million currently. The city obtains most of its water supply from the Cauvery River over 100 km away and faces shortages. Electricity demand has grown to 2300 MW per day but power cuts still occur due to infrastructure issues. Waste generation is expected to rise significantly in coming decades putting pressure on existing management systems. The city's transportation network relies heavily on buses but metro expansion aims to provide improved public transit options. Proper urban planning will continue to be needed to support sustainable growth of infrastructure for Bangalore's large population.
The document provides an overview of the National Capital Region of India, including its population, area, constituent regions, and planning zones. Key points:
- The NCR covers an area of over 55,000 sq km across Delhi and parts of Haryana, UP, and Rajasthan, with a population of over 5.8 crore currently that is projected to grow significantly by 2041.
- The region has four policy zones - NCT Delhi, Central National Capital Region, highway corridors, and a natural conservation zone, as well as the rest of NCR.
- Implementation of the regional plan faces challenges around coordination between agencies, uncontrolled conversion of agricultural land, and delays in land acquisition.
Chennai is the capital city of Tamil Nadu and the fourth largest city in India. It has a population of over 4 million people and covers around 1,189 square kilometers. Chennai receives its water from various sources, including local aquifers, desalination plants, and reservoirs, but demand is expected to exceed supply by 2031 if additional sources are not developed. The city faces issues with solid waste management, flooding during heavy rains, and inadequate water supply for both drinking and irrigation needs.
Technoparks: Scientific and Technological Platform for a Better Dissemination...UNESCO Venice Office
Workshop on Higher Education and Professional Responsibility in CBRN Applied Sciences and Technology across the Sub-Mediterranean Region
3-4 April 2012. Palazzo Zorzi, Venice
Session 4. Future Directions - Higher Education and Responsible Science
This document discusses nanotechnology and its applications. It begins by defining nanotechnology as the manipulation of matter at the nanoscale, which is one billionth of a meter. It then outlines several applications of nanotechnology including in electronics like transistors and solar cells, energy like batteries and fuel cells, and materials like carbon nanotubes. The document also discusses advantages such as stronger and lighter materials, faster computers, and medical applications like universal immunity. However, it notes some disadvantages like potential job loss and health risks from carbon nanotubes. Finally, it discusses the future of nanotechnology in areas like electronic paper and contact lenses.
Jamshedpur is located in the state of Jharkhand, India. It has a population of over 1.3 million people and was established in 1908 as the site for Tata Steel, India's first and largest steel manufacturing plant. Jamshedpur has developed into a major industrial city with Tata Steel and other associated industries like Tata Motors forming the economic backbone. The city was planned with wide streets, parks, and separate areas for religious structures in line with Tata's vision. Jamshedpur faces some infrastructure challenges around sanitation and waste management but remains an important industrial and economic center in eastern India.
This document summarizes the evolution of town planning laws and development in India, including key acts, guidelines, and issues. It discusses:
- The origins of town planning laws in 1920 and the influence of Sir Patrick Geddes in establishing improvement trusts and town planning acts.
- The 1962 Model Town and Regional Planning and Development Law that formed the basis for state town planning acts.
- The 1985 revised Model Regional and Town Planning and Development Law that many states have enacted town planning acts based on.
- Issues around compliance with the 74th Constitutional Amendment Act and emerging topics like inclusive planning and disaster management plans.
Vadodara is an important industrial and cultural center located in western India. The key industries include chemicals and petrochemicals, pharmaceuticals, textiles, engineering and food processing. Vadodara has large reserves of minerals like dolomite and fluorspar that support these industries. Major companies like Gujarat Alkalis and Chemicals Ltd. and Gujarat State Fertilizers & Chemicals Ltd. have manufacturing plants in Vadodara. The district also has a thriving agriculture sector growing crops like cotton, cereals, pulses and fruits. Recent investments have focused on sectors such as infrastructure, glass and transportation.
Surat is an important economic hub located in Gujarat, India. It was previously known as Suryapur and is famous for its textile and diamond industries. Surat has a population of over 4.5 million and has the second largest economy in Gujarat, after Ahmedabad. Key industries include diamond cutting and polishing, textiles like silk, and other sectors like petroleum and information technology. Surat has seen rapid economic growth and was awarded the cleanest city in India in 2016.
The document discusses various IT parks located across India. It provides details about prominent IT parks such as Hitec City in Hyderabad, the largest IT park in India. It also discusses International Tech Parks in Chennai and Bangalore developed by Ascendas and International Tech Park Ltd. respectively. The document further mentions other major IT parks located in cities including Bangalore, Kolkata, Chandigarh, Ludhiana and their focus on providing infrastructure and facilities to attract IT and related industries.
City profile of chennai- history,demograpgy,census and transportation and issues in chennai
Note: animation content download and see slide only in slide show for more brief
Chandigarh City is one of the most significant urban planning experiments of the 20th century, and the only one of Le Corbusier's planning schemes to be fully realized. It was designed to be the capital of Punjab after its division, with Le Corbusier's master plan dividing the city into sectors focused around circulation, living, working, leisure, and governance. Key features include the Capitol Complex administrative center, City Centre commercial hub, and a network of roads classified by function. Landscaping and architectural aesthetics were an important part of Le Corbusier's vision for the planned city.
The document discusses satellite towns, which are smaller metropolitan areas located near but independent from larger cities. Satellite towns help decentralize populations and activities to reduce overcrowding in major cities. They have local governance and facilities, but rely on parent cities for some employment and education. The document outlines the need for satellite towns due to urban growth issues, and describes their characteristics, objectives in developing infrastructure, and the process of city and regional planning to integrate satellite towns with parent cities.
The document discusses plans for the Dholera Special Investment Region (SIR) in Gujarat, India. The key points are:
- Dholera SIR is being developed as a global manufacturing and trading hub across 920 square kilometers to attract investment and create jobs.
- The development plan focuses on world-class infrastructure to protect local industries and improve quality of life.
- The goals are to double employment, triple industrial output, and quadruple exports from the region in five years.
- Several industries have committed large investments totaling hundreds of billions of rupees towards developing industrial parks and sectors like automotive, electronics, pharmaceuticals, and IT in Dholera SIR
The document provides an overview of the morphological evolution and spatial development of Bengaluru (Bangalore) city in India. It discusses how the city began as a small fort established in 1537, and over time expanded through population growth and economic development to become a large metropolis. The document outlines Bengaluru's transformation from a historic town organized around markets or "petes" into a modern city with a concentric structure defined by radial roads and ring roads. It focuses specifically on the development of M.G. Road as a prominent commercial area at the center of the city and discusses landmarks along the road.
Vadodara is an important industrial center in Gujarat located on the banks of the Vishwamitri River, with a focus on chemicals, petrochemicals, pharmaceuticals, and biotechnology. The district has well-developed industrial infrastructure including special economic zones, industrial parks and estates to support major private and public sector industries. Vadodara's strategic location along key transport corridors and proximity to major cities, along with availability of skilled labor and raw materials, make it well-positioned to attract further industrial investment and economic growth.
This document provides an overview of the town planning of Bangalore City, India. It discusses Bangalore's origin and evolution from a mud fort established in 1537 to becoming known as the "Silicon Valley of India". The document outlines Bangalore's climate and topography. It describes the city's growth from a garden city to a major tech hub. Key aspects of Bangalore's planning are highlighted such as its five concentric belts of development and transportation infrastructure. Different master plans for the city are also summarized.
Bangalore has a long history dating back to the 9th century. It was founded in the 15th century by Kempe Gowda who built a mud fort. In the 16th century, Aurangzeb captured the city. Later, the Wodeyars ruled Bangalore and developed landmarks like Lal Bagh garden. In the 19th century, the British took control and developed infrastructure. Modern Bangalore owes its growth to pioneers like Viswesraya. The city is now well-connected by air, rail and road and has a structured development plan organized around five concentric belts and major roads.
Nagpur is the third most populous city in the state of Maharashtra, India. It has a population of over 3 million people and a literacy rate of 93.13%, one of the highest in India. Nagpur has a hot tropical climate with average temperatures ranging from 20-40 degrees Celsius. The city has a diverse economy including banking, cargo transport, and being an important industrial hub. Nagpur contains several wildlife reserves surrounding it and is a center for both Hindu and Buddhist religious sites and festivals in the region.
Patna, formerly known as Pataliputra, has a long history as the capital of ancient Indian powers. It was founded in 490 BCE by King Ajatshatru of the Magadha dynasty and became one of the largest cities in the world under the Mauryan Empire in the 3rd century BCE. Its strategic location at the confluence of the Ganges, Gandak, and Sone rivers allowed it to dominate riverine trade. Over the centuries, Patna was ruled by several dynasties and declined in the 7th century CE before being revived by Sher Shah Suri in the 16th century. It has long been an important agricultural and trade center, and its economy has grown significantly in
Bangalore city has grown rapidly from a population of around 1 million in 1950 to over 10 million currently. The city obtains most of its water supply from the Cauvery River over 100 km away and faces shortages. Electricity demand has grown to 2300 MW per day but power cuts still occur due to infrastructure issues. Waste generation is expected to rise significantly in coming decades putting pressure on existing management systems. The city's transportation network relies heavily on buses but metro expansion aims to provide improved public transit options. Proper urban planning will continue to be needed to support sustainable growth of infrastructure for Bangalore's large population.
The document provides an overview of the National Capital Region of India, including its population, area, constituent regions, and planning zones. Key points:
- The NCR covers an area of over 55,000 sq km across Delhi and parts of Haryana, UP, and Rajasthan, with a population of over 5.8 crore currently that is projected to grow significantly by 2041.
- The region has four policy zones - NCT Delhi, Central National Capital Region, highway corridors, and a natural conservation zone, as well as the rest of NCR.
- Implementation of the regional plan faces challenges around coordination between agencies, uncontrolled conversion of agricultural land, and delays in land acquisition.
Chennai is the capital city of Tamil Nadu and the fourth largest city in India. It has a population of over 4 million people and covers around 1,189 square kilometers. Chennai receives its water from various sources, including local aquifers, desalination plants, and reservoirs, but demand is expected to exceed supply by 2031 if additional sources are not developed. The city faces issues with solid waste management, flooding during heavy rains, and inadequate water supply for both drinking and irrigation needs.
Technoparks: Scientific and Technological Platform for a Better Dissemination...UNESCO Venice Office
Workshop on Higher Education and Professional Responsibility in CBRN Applied Sciences and Technology across the Sub-Mediterranean Region
3-4 April 2012. Palazzo Zorzi, Venice
Session 4. Future Directions - Higher Education and Responsible Science
This document discusses nanotechnology and its applications. It begins by defining nanotechnology as the manipulation of matter at the nanoscale, which is one billionth of a meter. It then outlines several applications of nanotechnology including in electronics like transistors and solar cells, energy like batteries and fuel cells, and materials like carbon nanotubes. The document also discusses advantages such as stronger and lighter materials, faster computers, and medical applications like universal immunity. However, it notes some disadvantages like potential job loss and health risks from carbon nanotubes. Finally, it discusses the future of nanotechnology in areas like electronic paper and contact lenses.
This document provides information about Technopark "Idea" including its total area, premises space, investment scope, number of companies and employees, average salaries, shareholders, anchor residents, indicators, salary data over time, development stages of resident companies, client profile, vocational guidance programs, the Youth Innovation Creativity Centre, soft infrastructure projects, success stories including Technopolis "Himgrad" and its Nanotechnology Centre and activities.
The document provides an overview of the high tech industry and focuses on several key segments including hardware, software, and services. For hardware, it discusses business and consumer focused offerings such as PCs, chips, storage devices, telecom equipment, and more. For software, it outlines infrastructure, enterprise, and consumer applications. And for services, it discusses various business process outsourcing and IT services.
Mergers & Acquisitions in High Tech IndustryAbhishek Breja
The document discusses the different types of mergers and acquisitions (M&A) and the unique challenges that each presents for management. It outlines seven types of M&As - overcapacity M&A, geographic roll-up M&A, product/market extension M&A, M&A as R&D, industry convergence M&A - and notes that distinct activities lead to differing management challenges for each type. Key challenges addressed include rationalizing merged companies, dealing with cultural differences, conducting thorough due diligence, and allowing acquired companies autonomy versus forcing integration. The document is intended to help management tailor their approach to the specific type of M&A.
Hi-tech industries are light industries that involve scientific research and development to produce sophisticated products. They are divided into research and development as well as manufacturing. The location of hi-tech industries is influenced by factors such as access to an urban labor force, transportation infrastructure like airports and roads, proximity to universities for research collaboration, and attractive environments in planned science parks. Tsukuba Science City in Japan is an example of a planned science park located near Tokyo that hosts over 50 national research institutions and 150 private firms in attractive landscaped settings to support the high-tech industry.
This document discusses the Kennispark Twente, an innovation campus in the Netherlands created through cooperation between Saxion University, the University of Twente, the Province of Overijssel, and the City of Enschede. The campus aims to stimulate entrepreneurship, innovation, and knowledge transfer in the region. It provides an ecosystem for startups and growing companies through offerings like talent development, financing networks, research partnerships, and shared facilities. The Kennispark has been successful in driving regional innovation and job growth, with over 330 companies now located on site providing nearly 6,000 jobs. It leverages over 100 years of industry-university cooperation in the region and a shared vision to support the high-tech systems and materials
TCI 2016 Eindhoven - hightech capital of the worldTCI Network
This document summarizes an event promoting Eindhoven, Netherlands as a high-tech capital. It discusses Eindhoven's leadership in fields like advanced engineering, photonics, and software. It then summarizes a startup accelerator program, noting it helps startups build businesses, attract investors, and has supported over 37 startups, raising €20 million with a 90% survival rate, placing the program in the global top 5. The event promotes Eindhoven's strong high-tech ecosystem supported by its universities, experts, and multinational companies.
Keynote at the Annual Conference by OMV. OMV has group sales of EUR 19 bn and a workforce of around 22,500 employees. The focus of the leadership conference was "Future of Energy". Motivational Keynote Speaker Mr. Monty C. M. Metzger (http://blog.monty.de/keynote-speaker) was invited to speak about the future of mobility and smart cities and its impact on the energy industry.
How technology and business is changing communicationHelge Tennø
1. The document discusses technology, business, and how they relate to people and change.
2. It argues that technology itself does not solve problems, but rather creates new opportunities and habits by enabling change. How people adjust to and harness change is more important than the technology itself.
3. Business and brands must understand customers' perspectives on change and ensure new technologies meet customer needs and promises. The most important factors are humans, understanding change, and aligning technology and business with customer priorities.
Disruptive Technology - Why large companies often fail to innovateNorman Hiob
Why do large companies often fail to innovate? Often it is good management, that has made them become industry leaders. This paper gives an analysis of the 5 principles of disruptive technologies and some advice what managers of large companies can do.
The document discusses frameworks for disruptive innovation and how established companies can successfully pursue it. It argues that companies should:
1) Frame disruptive innovations as threats to gain commitment for resources, and later shift them to autonomous units where they are seen as opportunities.
2) Evaluate whether innovations target non-consumers or the low-end of existing markets.
3) Consider production design and modular architectures that improve flexibility when pursuing disruptions, as performance overshooting often occurs. Heavyweight teams and autonomous units can successfully commercialize disruptions.
This document describes the P-ISM (Pen-style Personal Networking Gadget Package), which was created in 2012. P-ISM allows users to use two pens to control a projected keyboard and monitor on any flat surface. It functions like a desktop computer through its CPU pen, communication pen, LED projector, virtual keyboard, digital camera, and battery. The document discusses P-ISM's history, components, functions, block diagram, working, merits such as portability, demertis like cost, and references.
Manufacturing engineering and technology - Schmid and Kalpakjianjagdeep_jd
The document discusses the structure of metals and their mechanical properties. It begins with an outline of chapter topics, including crystal structures (BCC, FCC, HCP), defects, slip and deformation, dislocations, solidification, and grain size. Tables provide data on mechanical properties and homologous temperature ranges for various metalworking processes. Figures show stress-strain curves, tensile testing specimens and machines, and the relationships between engineering and true stress/strain. The document provides an overview of the key concepts relating to metal structure and mechanical behavior.
Technology Transfer in Pharma Industry, Technology Transfer in Pharmaceutical Industry, Pharmaceutical Technology Transfer, Pharma Tech Transfer, Naseeb basha, Pharmaceutical Tech Transfer, Naseeb basha Technology Transfer in Pharma Industry, Naseeb basha Pharmaceutical Technology Transfer
Slides from my keynote w/ Capgemini in Copenhagen - looking at how Microsoft, GE, KLM and Uber use Salesforce Marketing Cloud to innovate, disrupt and build customer relationships faster.
The document discusses the concepts of disruptive innovation and paradigm shifts. It provides summaries and quotes from thinkers such as Joseph Schumpeter, Friedrich von Hayek, Thomas Kuhn, Peter Drucker, and others regarding innovation, knowledge, and the disruption of existing systems. Examples are given of disruptive innovations and challenges incumbent firms face in competing against non-consumption.
Startup DNA: the formula behind successful startups in Silicon Valley (update...Yevgeniy Brikman
[Updated May 5, 2017] "Successful startups are all alike; every unsuccessful startup is unsuccessful in its own way." These are my personal observations on a few traits that make startups successful. You can find a video of the talk at https://www.youtube.com/watch?v=z_D9oXCK2lM and the book at http://www.hello-startup.net/.
The document provides an overview of manufacturing processes and systems. It discusses the typical product cost breakdown and describes manufacturing processes as sequences of operations to transform materials into products. Various manufacturing system designs are presented, including job shop, flow shop, linked-cell shop, and project shop configurations. Common basic manufacturing processes like casting, forming, machining, joining, and rapid prototyping are summarized along with examples. The roles of engineers in manufacturing are also outlined.
A brief description of the Clayton Christensen's concept of disruptive technology and how it helps us to understand why companies go bankrupt under conditions of technological change.
The document discusses several technology transfer agencies in India:
1) The Asian and Pacific Centre for Transfer of Technology (APCTT) promotes technology transfer among small and medium enterprises in Asia and the Pacific.
2) The National Research Development Corporation (NRDC) commercializes technologies from R&D institutions and has licensed technology to over 4,800 entrepreneurs.
3) The Technology Information, Forecasting and Assessment Council (TIFAC) supports innovation and released a Technology Vision 2035 for India.
The document discusses definitions of science parks from various organizations like Castells, Kang, UKSPA, AURP, and SPRINT. It provides details on the objectives, development patterns, management types, and activities of science and technology parks (STPs). The rest of the document outlines the process of developing a Teknopolitan, including conducting feasibility studies, creating a master plan and action plan, construction, and ongoing management.
This document provides an overview of technology parks and business incubators, including:
- Definitions of key terms like science parks, technology parks, and business incubators.
- The conceptual framework of technology parks, which aim to facilitate commercialization of new technologies through synergies between research, education, and companies.
- The functions of technology parks and incubators, which include providing facilities, expertise, networking opportunities, and other resources to support startup companies and help them grow.
- Examples of successful parks highlight the importance of links to universities for access to talent, facilities, and intellectual property.
This document summarizes information about a university technology park, including its mission, vision, tenants, programs, collaborations, and successes. The technology park was established to foster collaboration between university, industry, and research centers. It currently houses over 300 companies in sectors like ICT, electronics, life sciences, and advanced materials. The park supports startups and industry partnerships through various programs, and many tenants have achieved commercial success and international expansion.
The document discusses plans for an Information Technology Park in Ethiopia with the goals of establishing the country as the premier IT hub of Africa, creating foreign investment and jobs for citizens. The key benefits of the IT Park include providing infrastructure and training to attract companies while generating employment, foreign earnings, and catalyzing nearby businesses. The park will have zones for businesses, assembly, warehousing, commercial and administrative uses. Current construction includes administration buildings, an IT ministry headquarters and business incubator. The government aims to transform ideas into commercial products and startups through the park, spurring research and creating 300,000 jobs.
Thailand has an extensive innovation network made up of various supporting parties, from government bodies, the private sector, to venture capital and other organizations including research laboratories and academic institutions.
The Asian and Pacific Centre for Transfer of Technology (APCTT) is a regional institution of the United Nations Economic and Social Commission for Asia and the Pacific (ESCAP) servicing the Asia-Pacific region.
The National Research Development Corporation (NRDC) was a non departmental government body established by the British Government to transfer technology from the public sector to the private sector.
TIFAC is an autonomous organization set up in 1988 under the Department of Science & Technology to look ahead in technology domain, assess the technology trajectories, and support innovation by networked actions in select areas of national importance.
Biotech Consortium India Limited (BCIL) is a public limited company, promoted by the Department of Biotechnology (DBT), Ministry of Science and Technology, Government of India and set up by All India Financial Institutions including IDBI, ICICI, IFCI, UTI and IFCI Venture Capital Funds Limited.
Technology transfer, also called transfer of technology (TOT), is the process of transferring (disseminating) technology from the places and ingroups of its origination to wider distribution among more people and places. It occurs along various axes: among universities, from universities to businesses, from large businesses to smaller ones, from governments to businesses, across borders, both formally and informally, and both openly and surreptitiously
IT Valley of Turkey is a project to develop an international technology valley in Turkey to advance the country's innovation economy by 2023. The project is a collaboration between government and academic institutions with the vision of becoming a tech center that facilitates industry-academia collaboration, technology transfer, and boosts tech entrepreneurship. The IT Valley will include technoparks, research institutes, free zones, and industrial zones located in Kocaeli, Istanbul, with over 400 companies, 6,000 employees, and 19 universities currently in the area providing a qualified talent pool. When complete, the IT Valley aims to have 5,000 R&D companies, 100,000 R&D personnel, and generate $50 billion annually to make Turkey
The document proposes solutions to improve research commercialization in India by establishing Research Commercialization Centers (RCCs) located at IITs. The RCCs would synergize existing programs and policies to promote industry-academia partnerships. A governing board would oversee each RCC. Challenges include implementing the synergistic framework and securing funding, but the model aims to be self-sustaining through equity shares. The RCCs are expected to strengthen commercialization of research and boost the startup ecosystem.
Transferencia de tecnoloxia e fomento do emprendemento biotecnologico en israelEsther Moscatel
The document summarizes Israel's Technological Incubators Program, which aims to support high-risk startup companies in key technology sectors. It discusses how the government program provides funding, facilities, and expertise to help innovative ideas transition to commercial startups. Over the past 30 years, the program has supported the creation of thousands of companies and played a major role in developing Israel's strong innovation ecosystem. It compares Israel's program to other international innovation clusters, finding it has been highly effective at supporting entrepreneurship through public-private partnerships.
THE RELATIONSHIP OF EDUCATION IN SCIENCE TECHNOLOGY AND (2).pptxCastroMarcoAngelo
The document discusses science and technology parks (STPs), which are organizations that promote innovation and business competitiveness. STPs facilitate knowledge sharing between universities, businesses, and markets. They support startup companies and technology/business skills transfers. STPs provide infrastructure and business services to tenants. Locating near universities and transportation helps STPs collaborate and access talent and markets. The Philippines has established several STPs, including the National Science Complex and U.P. Ayala Land Technohub, through partnerships between government, academia, and industry to promote research and economic development.
Express Park View is a residential project located in Greater Noida that aims to provide comfortable and affordable homes. It will feature 2-3 bedroom luxury apartments with green spaces and amenities like a clubhouse, swimming pool, and sports courts. The development is well-connected to Delhi and other areas and is situated near educational institutions, hospitals, malls, and commercial establishments. It emphasizes features like ample parking, power backup, security systems, and round-the-clock water supply to provide a healthy lifestyle for residents.
The document discusses the concept and development stages of science parks and technopolises. It defines them as areas that link educational or research institutions with businesses, providing infrastructure and support services to enable technology transfer and economic development. The document outlines different types of science parks and technopolises, their key features, physical characteristics, focuses, and examples to illustrate the concepts.
TECOM Investments is part of Dubai Holding and was established in 2005 to manage several interconnected business parks in Dubai focused on key industries. The business parks provide world-class infrastructure, facilities and business advantages like tax exemptions to companies in sectors like ICT, media, education, sciences and more. Some of the major business parks are Dubai Internet City, Dubai Media City, Dubai Studio City, Dubai Knowledge Village, Dubai International Academic City and Dubai Biotechnology & Research Park, which collectively house over 10,000 companies from different countries and sectors.
The document discusses technology transfer agencies in India. It provides details about 5 top technology transfer agencies: 1) Asian and Pacific Centre for Transfer of Technology (APCTT), 2) National Research Development Corporation (NRDC), 3) Technology Information, Forecasting and Assessment Council (TIFAC), 4) Biotech Consortium India Limited (BCIL), and 5) Technology Bureau for Small Enterprises (TBSE)/ Small Industries Development Bank of India (SIDBI). Each agency's role, objectives, functions, and services related to technology transfer and commercialization are described.
TCI 2015 Innovation Clusters – a National Strategy to Build Technology Capabi...TCI Network
Singapore has invested heavily over the past few decades to build up its research and innovation capabilities through strategic multi-year science and technology plans. It has developed several industry clusters through targeted funding and initiatives to encourage collaboration between universities, research institutes and private sector companies. More recently, Singapore has launched innovation clusters and national challenges focused on key areas like clean energy, water technologies, diagnostics, and additive manufacturing to help industries innovate and stay globally competitive.
The innovation hub of Turkey.
A cut above technopark.
Teknopark İstanbul is an İstanbul specific but a Turkey project.
Incubation Center and Tech-transfer office has opened.
Teknopark Istanbul is a science and technology park being developed in Istanbul, Turkey to advance the country's technology capacity and create an innovation environment for local and international companies. Over 62,000 square meters of office space has been allocated to over 100 companies and 50 start-ups, and 83,000 additional square meters will be ready by the end of 2016. Teknopark Istanbul provides significant tax exemptions and supports to tenant companies to become an internationally recognized hub for innovation and economic growth in Turkey and the surrounding region.
5. Introduction By Zia-ul-islam
•Definition
•History
•Vision & Mission
•Purpose
•Benefits of techno park
•How differs from other parks
Dubai Techno park
6. Introduction: Techno-park
Definition:
“A techno park (research
park, science park, or science and
technology park) is an area with a
collection of buildings dedicated to
scientific research on a business
footing.”
7. History:
• The world's first techno park in the early
1950 near Stanford University, and
foreshadowed the community known
today as Silicon Valley.
Why different names:
• Usually the Park different names depends
on the type of science and research in
which the park's entities engage.
8. Vision & Mission:
• location in which Government, universities and
private companies cooperate and collaborate.
• Enhance the development, transfer, and
commercialization of technology.
• live-work-play environments for students.
9. Vision & Mission:(continue)
Launching new companies
• To attract new companies to towns, and to expand
their tax bas.
• About one-quarter of graduates from park
universities remains in their park for jobs.
Sharing of ideas
•Creativity is born through the exchange between industrial,
scientific, philosophical, and artistic mind.
11. Technology developing Zone:
• Techno park is a center where Universities,
research institutions and industrial
organizations work together to make their
Research/Development activities and
innovation researches.
• In this places economical and social structure
combines and by the cooperation of these
organizations efficiency of technology
production increases.
12. Differs from other parks:
• More organized, planned, and managed.
• Concerned with future developments in
science and technology.
• Focus on product advancement and
innovation.
13. BENEFITS OF TECHNOPARKS:
• Increasing the export.
• High valued product production
• Decreasing the outsourcing needs for high-
tech products for the country.
• Foundation of high-tech organizations.
• Transforming the relations between
Universities and Industry to cooperation's.
14. BENEFITS OF TECHNOPARKS
(continue) :
• By research and development activities
supporting the local economical
development.
• Bringing the foreign funds to Zone.
• Creating modernization.
• Creating entrepreneurship.
• Job opportunities for well qualified people.
15. Existance of Technoparks:
Found all over the world, but are mostly concentrated
in developed countries.140 are found in North
America alone.
•Techno park Zhiguli valley, Russia, Samara region,
Togliatti
•Techno park, Trivandrum, at Thiruvananthapuram,
Kerala, India
•South Bank Techno park, London South Bank University,
England
•Techno park Stellenbosch, Stellenbosch, South Africa
•Montreal Techno parrk
•Techno park (Metro), a station of the Zamoskvoretskaya
Line of the Moscow Metro
18. Dubai Technopark:
• Techno Park was established in 2003 as a
science and technology park to further
Dubai’s economic development by Sheikh
Mohammed Bin Rashed Al Maktoum
• Dubai has allocated a 21 Million SQM plot
for the project located to the west of Jebel
Ali Free Zone
19. Vision in Dubai:
• To lead Dubai’s technological
development strategy by providing the
appropriate environment that would
attract and enhance direct investment in
manufacturing and ‘research and
development’ facilities with key focus on
appropriate advanced technologies
related to water desalination, energy, and
environment
20. Technopark Mission:
To ensure
•Establishment of clusters of similar
technology oriented industries in Dobai.
•Collaboration and partnership among
tech-oriented companies.
•Contribution to the advancement of
science & technology in the region.
21. The Dubai Advantage:
• Since 2000 real GDP of Dubai has been growing at a
compounded annual growth rate of about 15%. The
growth was largely driven by non-oil sectors, a unique
differentiator in a region where economies are dependant
on oil incomes.
• In 2009, 95% of Dubai’s GDP came from non-oil sectors.
• Positioned at the edge of the world’s second largest
desert, Dubai is considered an icon of entrepreneurship
and modernity in the Arab world. As the second largest
emirate behind Abu Dhabi, the capital of the United Arab
Emirates (UAE), Dubai is globally recognized as the
Middle East region’s international business hub.
28. Target Activities:
• High Tech Industries
• Research and Development
• Consultancy, design and support services
• Training
• Laboratories and Testing
• Incubation of Innovation
• Prototypes
29.
30.
31.
32.
33.
34.
35. KERALA Techno park
Techno park is a technology park in Thiruvananthapuram
(Trivandrum), Kerala, India. The park is dedicated to IT
ventures. It is the first and largest technology park in India.
Launched in 1990, Techno park as of 2012 has 4 million
square feet of built-up area, and is home to over 270
companies, employing nearly
38,000 professionals.Technopark is currently on an expansion
mode by adding another 37 hectares as part of Phase III
expansion and 450 acres (1.8 km2) as Techno city—an
integrated IT township near Pallippuram. During the global
financial crisis of 2007–2010, the park saw a period of reduced
growth in 2009-10, where the exports recorded was only
2.8% more than the previous year. As of late 2010, Techno
park accounts for about 70% of IT exports from Kerala.
36.
37.
38.
39. Techno Club
The club in the campus of Phase I provides
diverse facilities for professionals to unwind.
These include a gym, a swimming pool and
courts for badminton and table tennis and
beach volley ball. The Club also has massage
parlors. Vaisakha—a multi cuisine restaurant
and provides tour operators for organizing
recreational travel of employees and their
families.
40.
41. Expansion of Techno Park
Phase II
Techno park has acquired 86 acres (0.35 km².) of land,
for its Phase II expansion.
•Out of this, 50 acres (0.2 km².) has been earmarked
for Infosys and 36 acres (0.15 km².) for UST Global.
• Infosys is planning to create up to 2,500,000 sq. ft.
(230,000 m2). (233,000 sq. m.) of space to accommodate up to
15,000 professionals in the end. It plans to set up 600,000
sq. ft. (56,000 m2). (56,000 sq. m.) in the first phase.
• UST Global is setting up a 3.2 Million sq.ft. campus to be
complete by 2015. Eight lakh sq.ft. of space will be complete
by January 2012. Work on the campus was launched on
October 24, 2007.
42. Tata Consultancy Services has been allotted 25 acres (0.1 km².)
within the campus for their software development center. This
is in addition to the 14 acres (57,000 m2) of land allotted to
them for setting up their new training Park.
IBS Software Services is constructing a 450,000 sq. ft.
(42,000 m2). (42,000 sq. m.) office on 5 acres (0.02 km².) of
land. The first phase of the campus was inaugurated on
October 23, 2007.
Tata Elxsi Limited which is the product design arm of the US$
68 billion Tata Group, has also taken 3.5 acres (0.01 km².) to
build its state of the art design and development Centre. The
first phase of the campus has been commissioned on
September 7, 2007.
43. Phase III
•Techno park has almost completed acquisition of 100 acres
(0.4 km².) of land for Phase III expansion. Firms like Larsen
& Toubro and the Rahejas are planning major developments
within and around Techno park as well. L&T has already
announced its plans to set up a 35 acre (0.15 km².) hybrid IT-
and-residential park as part of Techno park Phase III.Patni
Computer Systems has already announced that it will set up
a Rs 150 Crore ($US 32 Million) Development Centre in
Phase III.
•The IInd and IIIrd phase of expansion of Techno park along
with the ramping up of operations of the existing IT units
are expected to see an investment of around Rs. 3000-
4000 Crore ($US 0.75 Billion) and an additional employment
creation of 80,000-100,000.
44.
45. Phase IV expansion — Techno city
•The Phase IV of Techno park is also referred to as the Techno
city project. It involves a mixed use—IT, biotechnology,
nanotechnology, commercial and residential development
spread over 500 acres (2 km².) of land, about 5 km (3.1 mi) from
the present campus.It will be a self-contained IT township with
the potential to employ a hundred thousand professionals. The
expected investment in the project is around Rs 6,000 Crores
(Over US$ 1.5 Billion), as per latest estimates.
•Once Techno city's land acquisition is complete, Techno park
will have an extent of close to 850 acres (3.5 km².), making it
one of India's largest IT satellite townships, in geographic area,
comparable to that of projects like the Mahindra World City in
Chennai.
46.
47. A science park is an organization managed by specialized
professionals, whose main aim is to increase the wealth of its
community by promoting the culture of innovation and the
competitiveness of its associated business and knowledge based
institutions.
To enable these goals to be met, a Science Park simulates and
manages the flow of knowledge and technology amongst
universities, R&D institutions, companies and markets; it
facilitates the creation and growth of innovation-based companies
through incubation and spin-off processes; and provides other
value added services together with high quality and facilities.
48. East Azerbaijan Science & Technology Park (EASTP) was founded in the year 2003.
It is located in Tabriz, Capital of East Azerbaijan province, Islamic Republic of Iran.
49. About Science and Technology Parks
Science and Technology Parks are the perfect habitat for
businesses and institutions of the global knowledge economy.
Science & Technology Parks promote the economic
development and competitiveness of regions and cities by:
Creating new business opportunities and adding value to mature
companies.
Generating knowledge-based jobs.
Building attractive spaces for the emerging knowledge workers.
Enhancing the synergy between universities and companies.
50. Incubator and Pre-incubator
As the name suggests, an incubator is a place that encourages new businesses to
develop. In this centre, newly--established corporations and companies present
their innovative ideas and projects and are then supported by the park to lead
them to success. The Park helps them to achieve their goals through less risky
ways, giving them wanted advice and supervision in investing in profit-oriented
regions.
East Azerbaijan science & technology park’s incubator first began its activity in
2003 under topic "incubator of information & communication technology" unit
(ICT) by the goal of develop & growth of small and medium enterprises (‘SMEs’).
EASTP Activity fields of Incubator are as follow:
Mechanic & Automobile parts
( Information Technology (IT
(.Information & Communication Technology (ICT
Chemical industries & Polymer
Electricity& Electronic
Commercial & advanced technologies
51. Pre-incubator
Pre-incubators are for non-registered corporations (they are not yet
ready to be registered) or for those corporations that don't have the
needed qualifications to be in the incubator center. These research
groups can stay in the Pre--Incubator center for at most one year. In
this one year they must get their work force together and have their
request ready to join the incubator center. The services available for
these groups are limited and free.
EAST-park have supported 40 tenant companies and 65 SMEs at
incubator and pre-incubator from 2003 and now it consists 23 tenant
companies and 34 companies at incubator.
52. EASTP Fields of Activity
The main fields of activity of East Parks tenants are:
1- Chemistry & chemical products
2- Plastics and polymers
3- Nano technology
4- Business
5- Information Technology (IT)
6- Mechanics
7-Automobile Parts
8- Electronics and Physics
9- Computer Science.
Of course, as time goes by, and depending on certain conditions,
the Park is ready to work in other unmentioned fields too.
53. EASTP Mission
East Azerbaijan Technology Park is in the business of transforming the
future. The main purpose of stabling the park in this area was to
develop communications in researching fields between the industries
present in the region and the universities of the area, with this hope
that it would lead to innovation, creativity and development.
Having the different industries working together in a friendly
environment would help to raise the level of technology transfer
causing useful competition between them which would then lead to
the growth of this industrial pole and the increase of the nations
wealth. Thus, East Park is a good example of maximum revenue from
industrial capacities.
54. EASTP Goals:
Bearing in mind the potentials of Tabriz,
EASTPs goals are:
- Promotion and improvement of the nations technology in
industry to expand and develop their competitive power in state
and especially international markets.
- Decreasing the amount of time needed in the process of
commercializing between research and industry especially
between newly-established corporations and companies.
55. - Encouraging the establishment of SMEs relying on
high technology.
- Helping to expand professions between different
fields.
- Creating a relationship between industries,
governmental organizations, universities and research
centers.
- Creating an environment fit for cooperation between
public and private Sectors.
56. Companies and organizations supported
by the park
- Private companies and organizations
- University and governmental research
centers
- Research and Development centers for
state organizations
57. As at 2012, Iran had 31 science and technology parks nationwide. The
government of Iran has also plans for the establishment of 50–60
industrial parks by the end of the fifth
Five-Year Socioeconomic Development Plan by 2015.
Few of those 31 techno parks are given below:
Khorasan Province Technology Park
Technology park
East Azerbaijan Province Technology Park
Technology park
Semnan Province Technology Park
Technology park
Guilan Province Technology Park Technology park
Yazd Province Technology Park Technology park
Markazi Province Technology
Technology park
Park
Isfahan Province Technology
Technology park
58. Park's name Focus area Location
Agro-Food, Biotechnology,
Guilan Science and
Chemistry, Electronics, Guilan
Technology Park Environment, ICT, Tourism.
Advanced Engineering
(mechanics and automation),
Pardis Technology Park Biotechnology, Chemistry, 25 km North-East of Tehran
Electronics, ICT, Nano-
technology.
Markazi Province
Technology Park ICT Arak
Khorasan Science and
Technology Park Advanced Engineering, Agro-
(Ministry of Science, Food, Chemistry, Electronics, Khorasan
Research and ICT, Services.
Technology)
59. Materials and Metallurgy,
Information and
Sheikh Bahai Technology Park
Communications Technology,
(Aka "Isfahan Science and Isfahan
Design & Manufacturing,
Technology Town")
Automation, Biotechnology,
Services.
Semnan Province Technology
Nano Technology, IT Semnan
Park
Advance Engineering,
East Azerbaijan Province
Electrical East Azerbaijan
Technology Park
& Electronics.
Yazd Province Technology Mechanical & Mechatronic
Heavy Industrial Yazd
Park
Instrumentation.
Tehran Software and
Information Technology Park ICT Tehran
(planned)
“Kahkeshan” (Galaxy)
Aerospace Tehran
Technology Park
60. • Its is the country’s largest Information and
Communications Technology Park.
•
The 17 story building
• The first international standard facility in
Pakistan
• located in Lahore.
• Started as “Lahore Technology Park” in 2006
61. • On January 15, 2012, Lahore Software
Technology Park was renamed as Arfa
Software Technology Park by Chief Minister
of Punjab, Mian Shahbaz Sharif.
• Arfa Karim was the youngest Microsoft
Certified Professional who died at the age of
16. Chief Minister Punjab announced to
change the name of Lahore Technology Park
in recognition of her achievements.
62. Vision & Mission:
• Development of an IT industry
• To bring technology revolution in the region.
• To attract local software companies and
foreign investors to start IT and IT-enabled
businesses in an expeditious manner.
63. Advantages:
Arfa Software Technology Park (ASTP) is a
smart, efficient, secure and functional
business venue which provides modern-
day business necessities under one roof.
ASTP offers an array of high-quality
facilities to businesses operating within
the technology park like
• Tier III Data Center
• Disaster Recovery Sites
• water-proof pathways
• high-tech security
64. Advantages(continue)
• advanced fire protection system
• RFID controlled parking for over 1000 vehicles
• The plug-and-play facilitie and customized
offices ensure business continuit
conveniences
• medical clinic
• food courts
• health club/Gym
• travel agency are thoughtfully set up within
the ASTP
65. IP based Building Management
System(BMS) within ASTP:
To ensure a failsafe and efficient environment, an IP
based Building Management System(BMS) is installed
at ASTP which enables
• centralization and optimization of the monitoring,
operating, and managing of the entire building
• The high-performance HVAC digital control system
manages the heating, ventilating, zoning,
humidification and air cleaning systems of the
building while cutting energy and equipment costs.
66. Facilities at Arfa Software Technology
Park
IT
Wide Area Network
Wi-Max Technology
VSAT Technology
Storage Area Network (SAN)
67. Utilities
175 seat auditorium
Spacious conference rooms with Video
conferencing
24/7 security surveillance
Triple source power backup
Restaurants, Café, Gymnasium, Medical Centre
and Prayer Halls
Banking and ATM Services
Ample parking facility for over 1,000 vehicles