Israel is known for its innovation and technological creativity. Some areas where Israel leads in research and development include:
- Agricultural research through innovations like drip irrigation, grain storage cocoons, and biological pest control.
- Solar energy through companies developing concentrated solar power plants and research at institutions like the Ben Gurion National Solar Energy Center.
- Military engineering through technologies like the Iron Dome rocket defense system, unmanned ground vehicles, and active protection systems for vehicles.
The Wealth of India is an encyclopedic publication launched in 1942 that provides information on plants, animals, and minerals found in India. It covers over 6000 plant species, 52 animal articles, and 73 articles on minerals. It aims to document India's biodiversity and bioresources. The publication is produced by the National Institute of Science Communication and Information Resources and is considered an invaluable reference work for researchers, students, government agencies, and others interested in India's natural resources, production, and uses. It has played a role in preventing bio-piracy and a US patent on turmeric. The complete publication includes 11 original volumes, 3 revised volumes, 2 supplements, and 8 additional supplement volumes.
Biotechnology and Medicine: Global Perspective
Gundu H R Rao, PhD
Emeritus Professor, Laboratory Medicine and Pathology, Anesthesiology, Lillehei Heart Institute, and Biomedical Engineering Institute, University of Minnesota, Minneapolis, Minnesota, USA 55455.
Gundurao9@gmail.com
There are more than 3000 biotech companies in the world. However, reliable sources indicate that only about 100 out of these 3000 companies, are offering commercial products. Majority of them depend on public or private funding for sustaining their operations. Of the 100 top biotech companies listed in Wikipedia, 70% of them are US companies. Only one from India and one from China are listed in this list of top 100 companies. The revenue generated ranges from a high of 15,000 million dollars to less than a few million dollars. Advance in biotechnology and biomedicine has contributed significantly, to the increased revenues in animal and agricultural products worldwide. Similarly, there is significant contribution in tissue engineering, drug discovery and development, development of biomarker assays for diagnostics, management of therapies, cellular and molecular therapies. China, one of the fastest developing economies, has initiated exchange program with 152 countries and signed memorandum of understanding with 96 countries, to become one of the major players in this field. One of the earliest and most significant biotechnology revolutions is the development of dairy industry in India. In the area of agriculture, India is the world’s largest producer of sugar and sugarcane (285 million tones). India is the second largest producer of Potatoes in the world, after China. In the area of biomedicine, India produces 60% of the global health vaccines (USD 665Million) using the World Health Organization protocols. The growth of Biotechnology and biomedicine in India is sporadic. Department of Biotechnology, Government of India, feels that it is time now, to develop a well thought-out, robust, state-of-the-art biotechnology and biomedicine program in India. In this overview, I will share my concept of how these technologies should be developed in India, to meet the needs of the country as well as to be globally competitive.
It gives me great pleasure to share some of my thoughts with you all, on these two very important topics: biotechnology and biomedicine. Biotechnology as we know today contributes significantly, to the growth and progress of research, in all of the areas selected for discussion, under various “sub-themes” for this international conference. The priority areas include, basic biology, biomedicine, bio-agriculture, bioenvironmental technology, biodiversity and bio-safety. Government of India has established a biotech park in Lucknow (UP), which houses 16 entrepreneurs, a Genome valley in Hyderabad, which is well supported by the State Government. Government of India also has approved the establishment of biotech parks in the States of Karn
It report in national root crop research institute, umudike, abia stateHenrietta Ezeagu
industrial training report on biotechnology department at national root crop research institute umudike, abia state written by Ezeagu Chinaza Henrietta from fed. uni. of technology owerri
Agriculture played a central role in the life of ancient Israel: Each of the three major pilgrimage festivals - Passover, Sukkot and Shavuot – are linked to agriculture, and an entire section (“Seeds”) of the Mishnah, the 3rd-century compilation of oral traditions, is devoted to agricultural laws. Agriculture regained a place of prominence in Jewish life with the emergence of Zionism, which emphasized settling the land and self-sufficiency. Young Zionists, inspired by ideologues like A.D. Gordon, aspired to reconnect to nature and strike roots in the soil as members of rural communal settlements (kibbutzim and moshavim).
These new farmers faced difficult conditions: a scarcity of water and arable land. This spurred a continual effort to develop innovative methods and technology for agriculture – agrotechnology (agrotech). In fact, agricultural research already began in the late 19th century at the Mikveh Israel agricultural school, founded in 1870. The Agricultural Experiment Station was established in Tel Aviv in 1921 and later developed into the Agricultural Research Organization (also known as the Volcani Institute), which is today Israel's major institution of agrotech research and development.
In this short guide, we will outline some of the major achievements in Israeli agrotech that have allowed Israel to become self-sufficient in food supplies and export some $1.5 billion of agricultural produce each year (mainly premium quality fruits, vegetables and flowers to Western Europe.) In particular, we will note Israel’s developments in water technology and crop enhancement, as well as its efforts to share its agrotech know-how with developing countries.
This document discusses national capacity building initiatives for biotechnology research and development in Ethiopia. It provides background on Ethiopia's agricultural system and constraints like diseases, pests, and abiotic stresses. Efforts are being made to build biotechnology education and research capacity through projects to train researchers, develop infrastructure, and establish enabling policies. Recent initiatives include establishing a Biotechnology Council and Institute to coordinate activities, and projects to develop human resources and research infrastructure nationwide to support the country's goal of improved food security through agricultural biotechnology. Challenges remain around developing infrastructure, incentives, and public awareness.
Eb ti sept 29 meeting biosafety-agri biotech-finalGTK1974
The Ethiopian Biotechnology Institute (EBTi) was established in 2016 to coordinate and lead biotechnology research and development efforts in Ethiopia. EBTi aims to build national biotechnology capacity through conducting its own research, coordinating other research institutions, and developing human resources. Ethiopia has great potential for biotechnology due to its biodiversity of crops, indigenous animal breeds, and microbial diversity in soda lakes. However, EBTi currently faces challenges such as a lack of biotechnology infrastructure, trained personnel, and public awareness.
N2Africa project in strengthening the capacity of partners working within leg...ILRI
The document summarizes donations and capacity building efforts of the N2Africa project in Ethiopia. The project donated a laminar flow cabinet, four pickup trucks, and ten motorbikes to various universities and research institutions. It supported one PhD student and trained over 1100 specialists in topics like inoculant technology and gender mainstreaming. Finally, the project worked with over 25,000 smallholder farmers on improved legume production and reached 30 districts across 4 regions of Ethiopia.
La presentazione di Nava Swersky Sofer, venture capitalist israeliana di successo, sul successo del modello start up in Israele, WEF è Start up (22 marzo 2014)
The Wealth of India is an encyclopedic publication launched in 1942 that provides information on plants, animals, and minerals found in India. It covers over 6000 plant species, 52 animal articles, and 73 articles on minerals. It aims to document India's biodiversity and bioresources. The publication is produced by the National Institute of Science Communication and Information Resources and is considered an invaluable reference work for researchers, students, government agencies, and others interested in India's natural resources, production, and uses. It has played a role in preventing bio-piracy and a US patent on turmeric. The complete publication includes 11 original volumes, 3 revised volumes, 2 supplements, and 8 additional supplement volumes.
Biotechnology and Medicine: Global Perspective
Gundu H R Rao, PhD
Emeritus Professor, Laboratory Medicine and Pathology, Anesthesiology, Lillehei Heart Institute, and Biomedical Engineering Institute, University of Minnesota, Minneapolis, Minnesota, USA 55455.
Gundurao9@gmail.com
There are more than 3000 biotech companies in the world. However, reliable sources indicate that only about 100 out of these 3000 companies, are offering commercial products. Majority of them depend on public or private funding for sustaining their operations. Of the 100 top biotech companies listed in Wikipedia, 70% of them are US companies. Only one from India and one from China are listed in this list of top 100 companies. The revenue generated ranges from a high of 15,000 million dollars to less than a few million dollars. Advance in biotechnology and biomedicine has contributed significantly, to the increased revenues in animal and agricultural products worldwide. Similarly, there is significant contribution in tissue engineering, drug discovery and development, development of biomarker assays for diagnostics, management of therapies, cellular and molecular therapies. China, one of the fastest developing economies, has initiated exchange program with 152 countries and signed memorandum of understanding with 96 countries, to become one of the major players in this field. One of the earliest and most significant biotechnology revolutions is the development of dairy industry in India. In the area of agriculture, India is the world’s largest producer of sugar and sugarcane (285 million tones). India is the second largest producer of Potatoes in the world, after China. In the area of biomedicine, India produces 60% of the global health vaccines (USD 665Million) using the World Health Organization protocols. The growth of Biotechnology and biomedicine in India is sporadic. Department of Biotechnology, Government of India, feels that it is time now, to develop a well thought-out, robust, state-of-the-art biotechnology and biomedicine program in India. In this overview, I will share my concept of how these technologies should be developed in India, to meet the needs of the country as well as to be globally competitive.
It gives me great pleasure to share some of my thoughts with you all, on these two very important topics: biotechnology and biomedicine. Biotechnology as we know today contributes significantly, to the growth and progress of research, in all of the areas selected for discussion, under various “sub-themes” for this international conference. The priority areas include, basic biology, biomedicine, bio-agriculture, bioenvironmental technology, biodiversity and bio-safety. Government of India has established a biotech park in Lucknow (UP), which houses 16 entrepreneurs, a Genome valley in Hyderabad, which is well supported by the State Government. Government of India also has approved the establishment of biotech parks in the States of Karn
It report in national root crop research institute, umudike, abia stateHenrietta Ezeagu
industrial training report on biotechnology department at national root crop research institute umudike, abia state written by Ezeagu Chinaza Henrietta from fed. uni. of technology owerri
Agriculture played a central role in the life of ancient Israel: Each of the three major pilgrimage festivals - Passover, Sukkot and Shavuot – are linked to agriculture, and an entire section (“Seeds”) of the Mishnah, the 3rd-century compilation of oral traditions, is devoted to agricultural laws. Agriculture regained a place of prominence in Jewish life with the emergence of Zionism, which emphasized settling the land and self-sufficiency. Young Zionists, inspired by ideologues like A.D. Gordon, aspired to reconnect to nature and strike roots in the soil as members of rural communal settlements (kibbutzim and moshavim).
These new farmers faced difficult conditions: a scarcity of water and arable land. This spurred a continual effort to develop innovative methods and technology for agriculture – agrotechnology (agrotech). In fact, agricultural research already began in the late 19th century at the Mikveh Israel agricultural school, founded in 1870. The Agricultural Experiment Station was established in Tel Aviv in 1921 and later developed into the Agricultural Research Organization (also known as the Volcani Institute), which is today Israel's major institution of agrotech research and development.
In this short guide, we will outline some of the major achievements in Israeli agrotech that have allowed Israel to become self-sufficient in food supplies and export some $1.5 billion of agricultural produce each year (mainly premium quality fruits, vegetables and flowers to Western Europe.) In particular, we will note Israel’s developments in water technology and crop enhancement, as well as its efforts to share its agrotech know-how with developing countries.
This document discusses national capacity building initiatives for biotechnology research and development in Ethiopia. It provides background on Ethiopia's agricultural system and constraints like diseases, pests, and abiotic stresses. Efforts are being made to build biotechnology education and research capacity through projects to train researchers, develop infrastructure, and establish enabling policies. Recent initiatives include establishing a Biotechnology Council and Institute to coordinate activities, and projects to develop human resources and research infrastructure nationwide to support the country's goal of improved food security through agricultural biotechnology. Challenges remain around developing infrastructure, incentives, and public awareness.
Eb ti sept 29 meeting biosafety-agri biotech-finalGTK1974
The Ethiopian Biotechnology Institute (EBTi) was established in 2016 to coordinate and lead biotechnology research and development efforts in Ethiopia. EBTi aims to build national biotechnology capacity through conducting its own research, coordinating other research institutions, and developing human resources. Ethiopia has great potential for biotechnology due to its biodiversity of crops, indigenous animal breeds, and microbial diversity in soda lakes. However, EBTi currently faces challenges such as a lack of biotechnology infrastructure, trained personnel, and public awareness.
N2Africa project in strengthening the capacity of partners working within leg...ILRI
The document summarizes donations and capacity building efforts of the N2Africa project in Ethiopia. The project donated a laminar flow cabinet, four pickup trucks, and ten motorbikes to various universities and research institutions. It supported one PhD student and trained over 1100 specialists in topics like inoculant technology and gender mainstreaming. Finally, the project worked with over 25,000 smallholder farmers on improved legume production and reached 30 districts across 4 regions of Ethiopia.
La presentazione di Nava Swersky Sofer, venture capitalist israeliana di successo, sul successo del modello start up in Israele, WEF è Start up (22 marzo 2014)
Malaysia has a growing biotechnology industry that is supported by the government. The government has established agencies like BiotechCorp to promote the industry and provides incentives to companies. There are over 65 biotech companies in Malaysia working in areas like healthcare, agriculture, and bioinformatics. Several universities also have strong life science programs and research that support the industry. Recently, two companies have been established to provide contract manufacturing services to pharmaceutical companies to produce biologics, helping Malaysia become more involved in biopharmaceuticals.
More than a Hundred Developments, Inventions, and Israeli Successes Galit Zamler
This presentation brings together more than a hundred developments, inventions and successes of Israelis companies. The presentation was made in honor of the Global Entrepreneurship Week in which Israeli educators schools for entrepreneurship, take part, with the encouragement of the Entrepreneurship for Kids Program, led by Galit Zamler.
During the GEW guest entrepreneurs come to schools and share their entrepreneurial process, accumulated experience, and insights.
More info on: https://www.tomorrowsuccess.com/
The document discusses Israel's model of biomedical innovation. It describes how Israel has achieved a high level of specialization in innovation and the relationship between physicians and the management of R&D. Key aspects of Israel's model include strong collaboration between hospitals, universities, and research institutions which helps drive medical advances. Israel also benefits from its mandatory military service, which provides leadership skills and experience that entrepreneurs can apply to starting new companies.
Sustainable intensification in agricultureafrica-rising
Presented by Kindu Mekonnen, Peter Thorne and Million Getnet, ILRI, at the ILRI/CGIAR and EIAR Partnering together—Experience Sharing Workshop, EIAR, Addis Ababa, 7 August 2019
The document provides information about plant tissue culture including the history, basic procedures, requirements for establishing a tissue culture laboratory, common terms used, and advantages and disadvantages. It describes the key steps of taking an explant from a mother plant, culturing it in a sterile nutrient medium, and multiplying the plantlets. The goal of tissue culture is to produce many genetically identical copies of desirable plants in a controlled, contaminant-free environment.
National research laboratories in medicinal plant research (autosaved).editedPriyadharshana
The document summarizes information about three national research laboratories in India involved in herbal cultivation and medicinal plant research:
1) CDRI in Lucknow focuses on drug research and development, has 17 divisions and has developed 12 new drugs.
2) CIMAP in Lucknow and with four centers studies medicinal and aromatic plants, maintains gene banks, and expands herbal cultivation.
3) NBRI in Lucknow studies taxonomy, biodiversity, biotechnology, and maintains the country's second largest herbarium and a botanical garden.
India is presently in the midst of its second “Green
Revolution”. During the first “Green Revolution”, India achieved selfsufficiency in the supply of food grains, an extraordinary achievement of its agricultural sector. While dealing with a high rate of population increase, the issue of food security has become crucial, leading the country to a compelling need to find alternative ways to feed its 1.2
billion people.
Throughout the years the State of Israel developed unique expertise and approaches to sustainable agricultural and rural development under semi-arid and arid climatic conditions. The management of limited natural resources is conducted by the integration of appropriate agrotechnologies, water and irrigation, R&D, and agricultural extension services. Based on these achievements, NHM chose Israel as a partner
to promote the goals of the Indian “Green Revolution”.
Popularl by the name itself the unique concept of "The Centers of Excellence" under this joint collabrative umbrella provides a suitable platform for a rapid transfer of technology to the farmers. Knowhow and new agricultural technologies such as protected cultivation, drip irrigation
and fertigation are demonstrated at the centers with the aim to be adopted by the farmers. This is done in order to increase their yields and productivity and also to improve the quality of produce. This can result in a positively impact on the income of the farmers and market prices, as well as introducing new varieties.
Yissum is one of the top 15 technology transfer companies in the world, with over 6,100 patents and 1,750 inventions licensed over 46 years. It works to commercialize research from The Hebrew University of Jerusalem and affiliated hospitals. Yissum is taking a more active role in technology transfer by creating funding platforms for projects at all stages of development and securing different funding opportunities. This helps bridge the "valley of death" between academic research and commercialization. New business models under consideration include a royalty-based funding model, utilizing Yissum's holdings in spin-off companies through IPO, and establishing an incubator to jointly invest and manage multiple early-stage projects.
CURRENT STATUS OF AGRICULTURAL BIOTECHNOLOGY FOR KNOWLEDGE SHARING IN STATE O...RABNENA Network
The document summarizes the current status of agricultural biotechnology for knowledge sharing in Kuwait. It outlines that the Kuwait Institute for Scientific Research (KISR) is the main source for agricultural biotechnology information in Kuwait. KISR has various departments conducting research in areas like aridland agriculture, biotechnology, and mariculture. It also maintains various databases, laboratories, and tissue culture facilities to support its research and knowledge sharing activities. KISR collaborates with other local and international organizations and works to develop the agricultural biotechnology sector in Kuwait.
The document discusses manmade resources and lists several examples: museums, zoos, botanical gardens, agrifarms, hospitals, Krishi Vignaan Kendrams, and research centers under state and central governments. It provides details on each resource, including definitions and importance. Museums preserve objects of cultural and historical importance for education. Zoos breed endangered species and teach conservation. Botanical gardens conserve plant diversity and biodiversity. Agrifarms provide agricultural education. Hospitals treat patients with specialized staff and equipment. Krishi Vignaan Kendrams test and demonstrate new agricultural technologies to farmers. Research centers conduct basic and applied research in specific areas. Overall, these manmade resources create scientific awareness, interest, and education
Indigenous business sector trade delegation 2018Adam Levin
The document summarizes an upcoming trade delegation from Australia to Israel in October 2018 organized by the Australia Israel Chamber of Commerce (AICC) for Indigenous Business Sector and Community Leaders. The 7-day program will provide opportunities to learn about Israel's business ecosystem in industries like agri-business, health, technology, and more. Site visits are planned to companies, universities, and institutions. The total estimated cost per delegate is $11,500-$15,500 which covers most program fees and meals but not airfare, insurance, or personal expenses. Interested participants are invited to register their interest with the listed AICC contacts.
The document discusses the history and development of agricultural extension systems in Israel. It notes that dry farming was practiced for over 2000 years, and the first agricultural school was established in 1870. In the early 20th century, the Jewish Agency established an Agricultural Experiment Station to conduct research and share results with farmers. After Israel's establishment in 1948, research stations merged into the Agricultural Research Organization (ARO). The extension system is coordinated through the Ministry of Agriculture and regional bureaus, and involves close cooperation between researchers, extension agents, farmers and industries. This has led to advanced agricultural technologies and modern farming practices in Israel despite its challenging landscape and climate.
Basic research conducted at Israeli academic institutions has significantly contributed to Israel's economy and standing in biotech and hightech. Some key examples include:
1) Developments in mathematics that were recognized with Nobel Prizes in Economics.
2) Advances in computer science like data compression algorithms that enabled the internet and software programs.
3) Discoveries in physics that advanced understanding of particles, black holes, and quasi-crystals.
4) Biotech innovations in areas like drug development, medical devices, agriculture, nanomaterials, and more that formed the basis for successful companies.
5) Translational research partnerships between academia and industry that led to multi-billion dollar drug sales and
Applying For A Master´S In Microbial Biotechnology EssayCrystal Williams
This study examined the effects of jojoba seed extract and riboflavin on preventing transmission of Iris Yellow Spot Virus (IYSV) by Thrips tabaci to onion plants. IYSV is an important virus affecting onion crops worldwide, including in Egypt where it was first reported infecting onions in 2004. Thrips tabaci is the main vector of IYSV. The study tested different concentrations of jojoba seed extract and riboflavin alone or in combination on T. tabaci adults to determine their ability to prevent transmission of IYSV to onion plants. Results showed that certain concentrations of the extracts were able to significantly reduce transmission of the virus compared to the control treatment.
The document provides information about the Consultative Group on International Agricultural Research (CGIAR). It discusses that CGIAR is a global partnership that was formed in 1971 to reduce poverty and hunger through agricultural research. It is made up of 15 research centers that work with hundreds of partners in agricultural research. The centers work on issues like improving food security, nutrition, health, and sustainable management of natural resources. CGIAR research is guided by a Strategy and Results Framework and implemented through CGIAR Research Programs coordinated by the CGIAR Consortium. The impacts of CGIAR's work include the high-yielding varieties that sparked the Green Revolution and continue to increase global food supplies.
Yissum is the technology transfer company of the Hebrew University of Jerusalem. It works to commercialize university technologies for societal benefit and to support research. Some key points:
- Yissum has transferred many technologies resulting in $1.3 billion in annual sales and has filed over 6,100 patents.
- It generates revenues through licensing and sponsored research that support the Hebrew University's $110 million research budget.
- Examples of successful spin-offs include Mobileye, an advanced driver assistance system, and DOXIL, a cancer treatment drug that generated $430 million in sales in 2008.
Engaging Developing Regions for Effective Global One Health implementation - ...Global Risk Forum GRFDavos
3rd GRF One Health Summit 2015
Plenary IV: Engaging Developing Regions for Effective Global One Health implementation - The ICOPHAI approach
Michael BISESI, PhD, REHS, CIH, Senior Associate Dean for Academic Affairs, Director of the Center for Public Health Practice, Interim Chair of Environmental Health Sciences, and tenured Associate Professor of Environmental Health Sciences in the College of Public Health at The Ohio State University, USA
Presentation Title: One Health Approach to Solve Complex Problems and Improve Livelihoods at the Human-Livestock-Wildlife Interface
Rudovick KAZWALA, BVSc, MVM, PhD, Professor of Veterinary Epidemiology and Public Health, Acting Dean of the Faculty of Veterinary Medicine, Sokoine University of Agriculture, Tanzania
Presentation Title: The Environmental Component of the One Health Approach: An Expanded Paradigm
Mateus MATIUZZI, DVM, PhD, Associate Professor of Bacteriology and Dean of Graduate Programs at the University of Sao Francisco Valley (UNIVASF), Petrolina, Brazil
Presentation Title: Brazilian Experience in One Health: ICOPHAI - One Health for Sustainable Development
Peter COWEN, DVM, MPVM, PhD, Associate Professor in the North Carolina State University College of Veterinary Medicine’s department of Population Health and Pathobiology, USA (tbc)
Presentation Title: Key Elements for Starting Up One Health Surveillance and Response Systems: What ICOPHAI Brings to the Table
Wondwossen GEBREYES, DVM, PhD, DACVPM. Professor of Molecular Epidemiology, Director of Global Health Programs at The Ohio State University, College of Veterinary Medicine and Chair of the Ohio State Global One Health Task Force, USA
Presentation Title: ICOPHAI: Engaging Health sciences and beyond for effective and sustainable Global One Health Implementation
The document discusses challenges for using indigenous knowledge, science, and innovation to develop Africa's plant resources. It provides historical context on the development of herbal medicine and interactions between indigenous and Western science. While Africa has tremendous plant diversity and traditional knowledge, little of this wealth has been commercialized due to a lack of integration between different stakeholders and a focus on unrealistic goals over practical applications. Moving forward, the author argues for a multidisciplinary approach targeting low-tech solutions to improve livelihoods, integrating traditional knowledge with scientific investigation and industry production through collaboration between communities, scientists, and government.
GraphSummit Singapore | The Art of the Possible with Graph - Q2 2024Neo4j
Neha Bajwa, Vice President of Product Marketing, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
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Malaysia has a growing biotechnology industry that is supported by the government. The government has established agencies like BiotechCorp to promote the industry and provides incentives to companies. There are over 65 biotech companies in Malaysia working in areas like healthcare, agriculture, and bioinformatics. Several universities also have strong life science programs and research that support the industry. Recently, two companies have been established to provide contract manufacturing services to pharmaceutical companies to produce biologics, helping Malaysia become more involved in biopharmaceuticals.
More than a Hundred Developments, Inventions, and Israeli Successes Galit Zamler
This presentation brings together more than a hundred developments, inventions and successes of Israelis companies. The presentation was made in honor of the Global Entrepreneurship Week in which Israeli educators schools for entrepreneurship, take part, with the encouragement of the Entrepreneurship for Kids Program, led by Galit Zamler.
During the GEW guest entrepreneurs come to schools and share their entrepreneurial process, accumulated experience, and insights.
More info on: https://www.tomorrowsuccess.com/
The document discusses Israel's model of biomedical innovation. It describes how Israel has achieved a high level of specialization in innovation and the relationship between physicians and the management of R&D. Key aspects of Israel's model include strong collaboration between hospitals, universities, and research institutions which helps drive medical advances. Israel also benefits from its mandatory military service, which provides leadership skills and experience that entrepreneurs can apply to starting new companies.
Sustainable intensification in agricultureafrica-rising
Presented by Kindu Mekonnen, Peter Thorne and Million Getnet, ILRI, at the ILRI/CGIAR and EIAR Partnering together—Experience Sharing Workshop, EIAR, Addis Ababa, 7 August 2019
The document provides information about plant tissue culture including the history, basic procedures, requirements for establishing a tissue culture laboratory, common terms used, and advantages and disadvantages. It describes the key steps of taking an explant from a mother plant, culturing it in a sterile nutrient medium, and multiplying the plantlets. The goal of tissue culture is to produce many genetically identical copies of desirable plants in a controlled, contaminant-free environment.
National research laboratories in medicinal plant research (autosaved).editedPriyadharshana
The document summarizes information about three national research laboratories in India involved in herbal cultivation and medicinal plant research:
1) CDRI in Lucknow focuses on drug research and development, has 17 divisions and has developed 12 new drugs.
2) CIMAP in Lucknow and with four centers studies medicinal and aromatic plants, maintains gene banks, and expands herbal cultivation.
3) NBRI in Lucknow studies taxonomy, biodiversity, biotechnology, and maintains the country's second largest herbarium and a botanical garden.
India is presently in the midst of its second “Green
Revolution”. During the first “Green Revolution”, India achieved selfsufficiency in the supply of food grains, an extraordinary achievement of its agricultural sector. While dealing with a high rate of population increase, the issue of food security has become crucial, leading the country to a compelling need to find alternative ways to feed its 1.2
billion people.
Throughout the years the State of Israel developed unique expertise and approaches to sustainable agricultural and rural development under semi-arid and arid climatic conditions. The management of limited natural resources is conducted by the integration of appropriate agrotechnologies, water and irrigation, R&D, and agricultural extension services. Based on these achievements, NHM chose Israel as a partner
to promote the goals of the Indian “Green Revolution”.
Popularl by the name itself the unique concept of "The Centers of Excellence" under this joint collabrative umbrella provides a suitable platform for a rapid transfer of technology to the farmers. Knowhow and new agricultural technologies such as protected cultivation, drip irrigation
and fertigation are demonstrated at the centers with the aim to be adopted by the farmers. This is done in order to increase their yields and productivity and also to improve the quality of produce. This can result in a positively impact on the income of the farmers and market prices, as well as introducing new varieties.
Yissum is one of the top 15 technology transfer companies in the world, with over 6,100 patents and 1,750 inventions licensed over 46 years. It works to commercialize research from The Hebrew University of Jerusalem and affiliated hospitals. Yissum is taking a more active role in technology transfer by creating funding platforms for projects at all stages of development and securing different funding opportunities. This helps bridge the "valley of death" between academic research and commercialization. New business models under consideration include a royalty-based funding model, utilizing Yissum's holdings in spin-off companies through IPO, and establishing an incubator to jointly invest and manage multiple early-stage projects.
CURRENT STATUS OF AGRICULTURAL BIOTECHNOLOGY FOR KNOWLEDGE SHARING IN STATE O...RABNENA Network
The document summarizes the current status of agricultural biotechnology for knowledge sharing in Kuwait. It outlines that the Kuwait Institute for Scientific Research (KISR) is the main source for agricultural biotechnology information in Kuwait. KISR has various departments conducting research in areas like aridland agriculture, biotechnology, and mariculture. It also maintains various databases, laboratories, and tissue culture facilities to support its research and knowledge sharing activities. KISR collaborates with other local and international organizations and works to develop the agricultural biotechnology sector in Kuwait.
The document discusses manmade resources and lists several examples: museums, zoos, botanical gardens, agrifarms, hospitals, Krishi Vignaan Kendrams, and research centers under state and central governments. It provides details on each resource, including definitions and importance. Museums preserve objects of cultural and historical importance for education. Zoos breed endangered species and teach conservation. Botanical gardens conserve plant diversity and biodiversity. Agrifarms provide agricultural education. Hospitals treat patients with specialized staff and equipment. Krishi Vignaan Kendrams test and demonstrate new agricultural technologies to farmers. Research centers conduct basic and applied research in specific areas. Overall, these manmade resources create scientific awareness, interest, and education
Indigenous business sector trade delegation 2018Adam Levin
The document summarizes an upcoming trade delegation from Australia to Israel in October 2018 organized by the Australia Israel Chamber of Commerce (AICC) for Indigenous Business Sector and Community Leaders. The 7-day program will provide opportunities to learn about Israel's business ecosystem in industries like agri-business, health, technology, and more. Site visits are planned to companies, universities, and institutions. The total estimated cost per delegate is $11,500-$15,500 which covers most program fees and meals but not airfare, insurance, or personal expenses. Interested participants are invited to register their interest with the listed AICC contacts.
The document discusses the history and development of agricultural extension systems in Israel. It notes that dry farming was practiced for over 2000 years, and the first agricultural school was established in 1870. In the early 20th century, the Jewish Agency established an Agricultural Experiment Station to conduct research and share results with farmers. After Israel's establishment in 1948, research stations merged into the Agricultural Research Organization (ARO). The extension system is coordinated through the Ministry of Agriculture and regional bureaus, and involves close cooperation between researchers, extension agents, farmers and industries. This has led to advanced agricultural technologies and modern farming practices in Israel despite its challenging landscape and climate.
Basic research conducted at Israeli academic institutions has significantly contributed to Israel's economy and standing in biotech and hightech. Some key examples include:
1) Developments in mathematics that were recognized with Nobel Prizes in Economics.
2) Advances in computer science like data compression algorithms that enabled the internet and software programs.
3) Discoveries in physics that advanced understanding of particles, black holes, and quasi-crystals.
4) Biotech innovations in areas like drug development, medical devices, agriculture, nanomaterials, and more that formed the basis for successful companies.
5) Translational research partnerships between academia and industry that led to multi-billion dollar drug sales and
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A case study on the Israeli Conceptual Abilities/Innovations by Devsena Mishra
1. A Case Study
On
The Israeli Conceptual Abilities/Innovations
(An excerpt from my book “Lean, Innovation and the Spirit of Enterprise”
published on March 5, 2016)
Devsena Mishra
2. Table of Contents
Israel – A Case Study.....................................................................................................................................3
Research and Development..........................................................................................................................3
Agricultural research.....................................................................................................................................5
Solar Energy ..................................................................................................................................................8
Military Engineering....................................................................................................................................10
Hi-Tech Companies .....................................................................................................................................13
Startup Nation.............................................................................................................................................15
Cyber Security.............................................................................................................................................17
About the Author........................................................................................................................................20
References ..................................................................................................................................................21
3. Israel – A Case Study
Israel is a leader in research and technological creativity. Its accomplishments in
the field of innovation and technology are remarkable. As per the Bloomberg 2015
innovation index, Israel is the world‘s fifth-most innovative country and second in
GDP expenditure on R&D. Since its establishment in 1948, Innovation is an
important element of Israel‘s policy.
Let’s take a look at some major factors that make Israel an example of
entrepreneurial spirit:
Research and Development
Israel‘s technological research in significant fields like computer technology,
alternative technology, water treatment, agriculture, and communication are world
known. The percentage of Israelis engaged in scientific and technological inquiry,
and the amount spent on research and development (R&D) in relation to gross
domestic product (GDP), is the second highest in the world. Since 2000, Israel has
been a member of EUREKA, the pan-European research and development funding
and coordination organization.
Israel‘s Office of the Chief Scientist (OCS) that comes under the Ministry of
Industry, Trade and Labor is responsible for executing the government policies that
are related to industrial R&D support. The Government of Israel has signed
agreements and created funds with other countries to support and promote
industrial R&D cooperation [3]. (For more information visit: OCS Website -
http://economy.gov.il/RnD/pages/default.aspx )
Key International Research Bodies are:
MATIMOP - Israeli Industry Center For R&D, Bi-National Funds- Bi-national
fund model to support cooperative projects with other nations, BIRD (Bi-National
Industrial R&D)- American Israeli Foundation, BRITECH - Britain-Israel
Industrial R&D Foundation, CIIRDF - Canada-Israel Industrial R&D Foundation,
KORIL-RDF - Korea-Israel Industrial R&D Foundation, SIIRD - Singapore-Israel
4. Industrial R&D Foundation, US-Israel Science & Technology Commission, IRC -
Innovation Relay Centers.
Israel Governments Key initiatives to encourage technological and industrial
research are:
Technological Incubators: The Technological Incubators program was introduced
at the beginning of the 90s, since then the program has been open to all beginning
Israeli entrepreneurs. The technological Incubator program provides entrepreneurs
following benefits: R&D grant, R&D infrastructure, Business guidance and
Administrative assistance.
Pre-seed Fund- the TNUFA Program- TNUFA assists individual entrepreneur
and start-up companies during the pre-seed stage.
Seed Fund - the HEZNEK Program- This program mobilizes funds for the
establishment of start-up companies.
The MAGNET Program- MAGNET program promotes new technologies via
cooperative venture between the industry and leading academic scientific research
institutions in the field. This program provides a grant of up to 66% of approved
budget.
MINI-MAGNET (MAGNETON) Program - Within the MAGNET umbrella,
Mini-Magnet promotes technology transfer from academia to industry.
NOFAR Program- NOFAR comes under MAGNET program supports
biotechnology projects.
(Read in detail from http://www.moit.gov.il/NR/rdonlyres/CD3AF19B-2619-415B-B2F4-
B747101C5202/0/TheIntellectualCapital3550.pdf)
Israel has seven research universities: Bar-Ilan University, Ben-Gurion
University of the Negev, the University of Haifa, Hebrew University of Jerusalem,
the Technion – Israel Institute of Technology, Tel Aviv University and the
Weizmann Institute of Science, Rehovot.
Other scientific research institutions include the Volcani Institute of Agricultural
Research in Beit Dagan, the Israel Institute for Biological Research and the Soreq
Nuclear Research Center. The Ben-Gurion National Solar Energy Center at Sde
5. Boker is an alternative energy research institute established in 1987 by the
Ministry of National Infrastructures to study alternative and clean energy
technologies. Israeli universities are ranked among the top 50 academic institutions
in the world in the following scientific disciplines: in chemistry (Technion), in
computer science (Weizmann Institute of Science, Technion, Hebrew University,
Tel Aviv University), in mathematics and natural sciences (Hebrew University,
Technion) and in engineering (Technion).
There are over 250 foreign R&D Centers in Israel, here is a list of multinationals
with R&D Centers in Israel
(Source of facts: Wikipedia and moit.gov.il)
Agricultural research
Agricultural innovations of Israel are remarkable. Israel has shown that how
geniuses can turn unfavorable situations into favorable. Israel where more than half
of the land is desert has established itself as a leader in advanced agriculture
technologies. Israel not only produces its own food but also exports $1.3 billion
worth of agricultural produce annually.
Israel‘s scientists, consultants, farmers and agriculture-related industries cooperate
in Agriculture Research activities. Agricultural Research Organization (ARO),
widely known as the Volcani Institute is responsible for operating research
operations in the country. The Faculty of Agriculture of the Hebrew University of
Jerusalem, Tel Aviv University, Bar Ilan University, Ben Gurion University of the
Negev and the Weizmann Institute of Science also engage in agricultural research.
Agriculture Research Organization (ARO) – ARO‘s goal is to develop Israeli
agriculture economy. ARO's six institutes are responsible for Plant Sciences,
Animal Science, Plant Protection, Soil, Water and Environmental Sciences,
Agricultural Engineering, and Postharvest and Food Sciences. ARO operates four
research stations, in various parts of the country, and serves as a testing center for
agricultural produce and equipment. Israel's Gene Bank for Agricultural Crops is
also located on the ARO Volcani Center campus. ARO provides direct and
6. cooperative technical assistance to developing countries with various national,
regional, international and non-governmental agencies.
(Source of facts: http://www.agri.gov.il )
Israel’s Key Agricultural Innovations [4]:
Drip irrigation - Israeli water engineer Simcha Blass, discovered that a slow and
balanced drip led to remarkable growth. In 1965 Simcha Blass started a company
called Netafim that provides drip and micro irrigation products for agriculture,
greenhouse, landscape and mining applications. Israel‘s drip irrigation techniques
helped several farming families in Senegal to reap crops three times a year, even
on infertile land. The Israeli drip irrigation system, called Tipa (―Drop‖) includes a
cement reservoir, a water pump (that can be operated by hand, solar power pump
or diesel generator) and plastic irrigation pipes. This technique uses gravity that
sends the water right to the roots of the plants, minimizing evaporation, soil
leaching and the need for high volumes of pesticides and fertilizers [4].
Grain cocoons - Grain Cocoons is designed for toxic-free fumigation and safe
storage of agricultural commodities. The huge bags, invented by international food
technology consultant Prof. Shlomo Navarro, keep both water and air out.
Traditional storage baskets or bags are not effective in keeping hungry bugs and
micro-contaminants out. Grain Cocoon is an effective solution to keep insect,
water, and water vapor penetration into the contents [4].
Biological pest control - Israeli company called Bio-Bee breeds beneficial insects
and mites for biological pest control and bumblebees for natural pollination in
greenhouses and open fields. Bio-Bee products have enabled sweet-pepper farmers
to reduce the use of chemical pesticides by 75 percent. Bio-Bee exports eight
different species of biological control agents, plus pollinating bumblebees, to 32
nations from Japan to Chile [4].
Dairy farming - Israeli Dairy Firms like Afimilk (formerly known as SAE
Afikim) and SCR Precise Dairy Farming provides advanced systems for herd
management, monitoring and feeding worldwide. Afimilk‘s notable inventions are:
The first electronic milk meter, which measures how many liters of milk a cow has
produced, the pedometer, which counts the number of steps a cow takes, indicating
the right time for insemination, AfiFarm, a milking and dairy herd management
7. software program, AfiAct, a fertility detection system and AfiLab, a device that
analyses the components of the milk and detects bacteria.
SCR dairy has played a significant role in the development of innovative
technological solutions for the worldwide dairy industry. During its first 20 years
of operations, the company focused on developing electro-mechanical devices for
dairy farms, pulsators, and automatic detachers. Over the last 10 years, SCR firmly
established its place amongst dairy farmers, leading the industry with advanced
cow monitoring solutions based on activity and rumination sensors. SCR is known
for its heat detection tag technology, data flow management software for
monitoring data, rumination monitoring tag and other advanced and innovative
cow monitoring solutions.
AKOL - Agricultural Knowledge On-Line (AKOL) provides a software that help
producers grow fruits and vegetables, raise poultry and dairy cows, manage
vineyards and make olive oil. AKOL is hosted in IBM cloud, provides Israeli
experts advice to farmers from anywhere in the world. Hundreds of thousands of
farmers can obtain tailor-made solutions, arrange group purchases of supplies and
communicate with colleagues [4].
Desert Potatoes - Hebrew University‘s Prof. David Levy developed strains of
potatoes that flourish in hot, dry climates, and can be irrigated by saline water
sources. His development will have a huge impact on potato production in hot,
desert regions like the Middle East, where temperatures are scorching, and water
resources scarce [4].
Crop protection - Two years ago, Hebrew University‘s tech transfer company
teamed with ADAMA Agricultural Solutions Ltd. (formerly Makhteshim Agan
Industries Ltd.) an Israeli manufacturer and distributor of branded off-patent crop
protection products including herbicides, insecticides, and fungicides. The Israeli
approach incorporates herbicides into micelles or vesicles, which are absorbed onto
negatively charged clay minerals to enable a slow and controlled release, reducing
leaching to deeper soil layers. This enhances efficiency and reduces the required
doses. ADAMA group has manufacturing facilities worldwide with key facilities in
Neot Hovav, Beer Sheba, Ashdod, and Brazil. In addition, the group has smaller
plants in Colombia, Poland, Spain, and Greece [4].
8. GFA (Grow Fish Anywhere) - Israel‘s GFA (Grow Fish Anywhere) Advanced
Systems eliminates the environmental problems in conventional fish farming.
Specially developed microbes purify fish waste byproducts right in the tank, with
no need for spillage and refilling. This system allows for high-capacity
aquaculture, with as much as 100 kg of fish per cubic meter of water [4].
Hardier seeds - Hebrew University agricultural scientists Ilan Sela and Haim D.
Rabinowitch developed TraitUP, a trademarked technology that enables the
introduction of genetic materials into seeds without modifying their DNA. This
method immediately and efficiently improves plants before they‘re even sowed [4].
List of Agriculture Companies - http://www.science.co.il/agriculture/Companies.php
(Other Source of facts: http://nocamels.com/ and Wikipedia)
Solar Energy
Israel is building world‘s largest power station ‗Ashalim‘ to produce 121
megawatts of renewable power to the country. The station will provide solar
thermal energy, photovoltaic energy, and natural gas. A 30MW PV plant and a 121
MW CSP plant will be established by Megalim Solar Power, a joint venture
between Brightsource and Alstom. The station is expected to commence electricity
production in 2017. In the year 1950, Levi Yissar developed a revolutionary solar
water heater to address the energy shortages of the country. In 1953, he started
NerYah Company, Israel's first commercial manufacturer of solar water heaters
and by 1967 around 50,000 solar heaters had been sold. With the 1970s oil crisis,
Harry Zvi Tabor, father of Israeli solar energy, developed the solar water heater
that now over 90% of Israeli homes use. The expertise of Israeli engineer and
Israeli solar companies is needed worldwide. However, even though Israeli
engineers have been involved in both photovoltaic and concentrated solar power,
the Israeli companies which have become market leaders in their respective fields
have all been involved in concentrated solar power.
Companies like BrightSource, Solel, and Brenmiller Energy deal with utility scale
projects. Israel's goal is to produce ten percent of the country's energy from
renewable sources by 2020. The electricity generated at the facility will be enough
9. to supply 120,000 homes with clean energy and will avoid 110,000 tons of CO2
emissions each year over the course of its life. The Ministry of National
Infrastructures estimates solar water heating saves Israel 2 million barrels of oil a
year.
Solar Power Research:
The Grand Technion Energy Program (GTEP) started with an aim to bring
together Technion's researchers to discover alternative and renewable energy
sources, promote more efficient energy use, and reduce the environmental damage
caused by the production of fossil fuels. GTEP is interdisciplinary, with members
spanning the range from nanoscience to applied engineering.
Ben-Gurion National Solar Energy Center founded in 1987 by the Ministry of
National Infrastructures to study alternative and clean energy technologies. In
2007, David Faiman, the director of the center, announced that the Center had
entered into a project with Zenith Solar to create a home solar energy system that
uses a 10-square meter reflector dish.
Jacob Blaustein Institutes for Desert Research- The Jacob Blaustein Institutes
for Desert Research facility was founded by Amos Richmond in 1974. This
institute conducts research in diverse fields and its solar energy research program
has developed several innovative techniques that help in the development of
passive heating, involving the mitigation of extremes of heat and cold in the desert
through efficient storage from day to nighttime. A blend of 90 scientists, 60
technical and administrative staff members, and over 150 Israeli and foreign
research students perform basic and applied research related to ―Desert Sciences".
Weizmann Institute Solar Research Facilities Unit- The solar research facilities
of the Weizmann Institute of Science are among the most advanced laboratories in
the world for concentrated solar energy research. Tareq Abu-Hamed, an Israeli
scientist at the University of Minnesota, with colleagues Jacob Karni and Michael
Epstein, head of the Solar Facility at Weizmann, were the developers of a new
method to produce hydrogen fuel more cheaply, efficiently and safely while
solving storage and transportation issues. Other innovations include harnessing
sunlight for space communications and meteorological information; controlling
light-dependent chemical reactions; and developing photodynamic cancer therapy.
10. (Source of facts: Wikipedia, in.bgu.ac.il, and other government‘s website)
Military Engineering
As per the report ‘Global Aerospace and Defense Outlook 2016‘ (published by
Deloitte), Israel is 7th in the world in Defense spending. According to Globes,
Israel spent $15.9 billion on its military overall in 2014.
Israel Defense Force (IDF) is famous for its modern technology, innovation in
cyber warfare, intelligence, precision armaments and electronics. The IDF is
one of the most technologically advanced armies in the world.
Sharing some of the most critical military capabilities of Israel [5]:
The IDF Unmanned Ground Vehicle - Guardium Unmanned Ground Vehicle
(UGV) patrols the Israeli border without an onboard human presence. The
Guardium is equipped with 360-degree cameras and a loudspeaker. It is highly
mobile, which means that it can stream images from various angles and gather
more data than a stationary camera can. Infantry soldiers often patrol alongside the
Guardium, which can detect threats from a distance. If it spots something
suspicious, the soldiers in the command room immediately notify the foot soldiers
in the field of the danger.
Mobile Radar - IDF has developed a new mobile radar that will be attached to
armored and infantry brigades, and will be able to respond immediately to rocket
fire. The mobile radar will identify the source of fire against the brigade, including
short-range shooting.
The Trophy System - Trophy is a military active protection system for vehicles.
The trophy is the product of a ten-year collaborative development project between
the Rafael Advanced Defense Systems and Israel Aircraft Industries' Elta Group.
The main purpose is to supplement the armor of light and heavy armored fighting
vehicles. The Trophy‘s detection system creates a 360-degree protective shield
around the tank. This system instantly detects and neutralizes any threat to the tank
by firing a missile of its own.
11. The Iron Dome Rocket Defense System - Iron Dome is a mobile all-weather air
defense system developed by Rafael Advanced Defense Systems and Israel
Aircraft Industries. The System has been deployed in the south of Israel since early
2011 in order to protect the citizens. On 10 March 2012, The Jerusalem Post
reported that the system shot down 90% of rockets launched from Gaza that would
have landed in populated areas. By November 2012, official statements indicated
that it had intercepted 400+ rockets. By late October 2014, the Iron Dome systems
had intercepted over 1,200 rockets. The system is the first of its kind in terms of
speed, accuracy, and capability. As soon as an enemy rocket is fired into Israel, the
radar station detects and tracks its trajectory and launches a missile of its own to
intercept and neutralize the enemy rocket before it can cause any harm.
IDF’s Dolphin-class Submarines - Israel‘s most critical military capability is
their small but very deadly submarine fleet. The new submarine ‗INS Rahav‘ is
Israel's fifth Dolphin-class submarine. The new submarine is equipped with the
most up-to-date naval weapons systems and improved detection capabilities. The
INS Rehav is 220 feet long, it is capable of reaching a top speed of 25 knots
underwater and can operate without resupply for up to 30 days under normal
operating conditions. This new submarine uses air-independent propulsion (AIP) to
stay submerged for weeks at a time and it is extremely quiet in comparison to its
predecessors. Other boats in Israel‘s fleet are Dolphin, Tekuma, Leviathan and
Tanin, the first three of which are Dolphin 1 class, with the Tanin being the first of
the improved Dolphin 2 class. Dolphin class, in general, is based on Germany‘s
highly successful line of submarines starting with the Type 209, but is most similar
to the Type 212, although the Dolphin class is larger. The Dolphin 2 class is even
larger than the Dolphin 1 class [6].
Israeli Military’s Innovative products [7]:
PillCam - Given Imaging is an Israeli medical technology company. Given
Imaging pioneered the capsule endoscopy technology with ‗PillCam‘ a capsule
with two tiny video cameras that enables visualization of patients‘ intestines
without the need for endoscopy. This idea was developed by Dr. Gabi Iddan while
working with missile division of Rafael, where he envisioned that missile
technology could be miniaturized to create a medical product. He used miniature
missile-guiding technology to craft this groundbreaking medical imaging device.
12. Emergency Bandage (Israeli Bandage) – It‘s a specifically designed first aid
device that is used to stop bleeding from hemorrhagic wounds caused by traumatic
injuries in pre-hospital emergency situations. It was invented by an Israeli military
medic, Bernard Bar-Natan. Developed through Israel‘s Technology Incubator
Program, the Emergency Bandage saved so many US lives in Operation Iraqi
Freedom and Operation Enduring Freedom that it became known as the Israeli
Bandage in the North American market.
DiskOnKey USB flash drive — USB flash drives were invented by Amir Ban,
Dov Moran, and Oron Ogdan. In 1989, Dov Moran founded the M-Systems and
patented the first flash drive. They also created the True Flash Filing System
(TrueFFS) which presented the flash memory as a disk drive to the computer. Dov
Moran served Israeli navy for seven years and was commander of its
microprocessors department. His M-Systems Flash Disk Pioneers Company was
acquired by SanDisk in 2006.
Selman Surgical Rehearsal Platform - Retired Israel Air Force officers Moty
Avisar and Alon Geri created a revolutionary neurosurgery simulator that lets brain
surgeons rehearse challenging microsurgical procedures before making a single
incision. The system generates 3D images from the patient‘s CT and MRI scans
and provides a preview of how surgical instruments will interact with the patient‘s
tissue and how the delicate brain structures will respond. It was launched at the
Congress of Neurological Surgeons in October 2012 and is named after Dr. Warren
Selman, the surgeon who commissioned the former officers to devise the system.
Through-Wall Vision - The Xaver (a product of Camero) through-wall radar
imaging systems use 3D image reconstruction algorithms, signal processing
techniques, and a unique proprietary sensor to generate 3D images of objects
concealed behind cement, plaster, bricks, concrete or wood. The product line
ranges from security cameras with advanced micropower radar technology to a
handheld device intended for search-and-rescue workers. Amir Beeri (former head
of IDF‘s R&D department) after spending 14-plus years in military intelligence, in
2004 founded Camero. Now Camero is a leader in development and marketing of
radar-based imaging systems. Camero is a part of the SK GROUP, a leading global
defense and security group that includes Israel Weapons Industries(IWI),
Meprolight, Israel Shipyards, PI Systems, Uniscope and more.
13. IAI Heron - The IAI Heron is a medium-altitude long endurance unmanned aerial
vehicle (UAV) developed by the Malat (UAV) division of Israel Aerospace
Industries. It is capable of Medium Altitude Long Endurance (MALE) operations
of up to 52 hours duration at up to 10.5 km (35,000 ft). Heron can carry an array of
sensors, including thermographic camera (infrared) and visible-light airborne
ground surveillance, intelligence systems (COMINT and ELINT) and various radar
systems, totaling up to 250 kg (550 lb). Heron is also capable of target acquisition
and artillery adjustment.
IDF has developed several other critical and innovative military products, these are
the most talked about, Israel is truly a leader in military engineering.
(There are many other interesting products, you can read in detail at http://www.israel21c.org/20-top-
technology-inventions-born-of-conflict/)
Hi-Tech Companies
Israel is a hub of many thousands of high technology companies in a wide range of
fields such as telecommunications equipment, software, semiconductors,
biotechnology and medical electronics. High-tech companies are located
throughout the country: in central Tel Aviv, in the suburbs of Jerusalem, even in
development towns in the Galilee and the Negev. But the main centers are in Tel
Aviv's Atidim Industrial Park, to the north of Tel Aviv in Herzliya Pituah, and to
the south in Rehovot, adjacent to the Weizmann Institute, as well as in Tel Aviv's
northeastern suburbs [8].
There are over 250 MNCs research and development centers in Israel, 80 of them
Fortune 500 companies including a large number of US companies. The world's
most important tech companies run Israeli research centers, including Cisco,
Microsoft, Google, Apple, IBM, Oracle, SAP, EMC, Motorola, HP, Facebook, and
eBay.
Let’s take a look at some major R&D centers and their contributions [9]:
Intel: Intel is an American MNC and one of the largest and highest valued
semiconductor chip maker based on revenue. It is the inventor of the x86 and x64
14. series of microprocessors, the processors found in most personal computers. In
March 2014, Intel embarked a $6billion plan to expand its activities in Israel.
Notable contributions of Intel‘s Israeli R&D Center: the development of the first
PC processor, the 8088 (used by IBM for its machines) in 1979 by Intel‘s Haifa
team, the Pentium MMX processor released in 1997 the most widely distributed
processor of the 20th century also developed in Haifa, development of the various
generations of the Pentium laptop processors (Dothan, Banias, etc.) as well as the
Centrino processor, the first laptop processor with Wi-Fi, development and
production of the latest Intel tech, including Thunderbolt, Sandy Bridge, Ivy
Bridge etc.
Google: Google‘s Israeli R&D center has done significant work in search,
innovations like Google Suggest, Google In-Page Analytics, and YouTube
Annotations. Google Israel‘s work in digitizing text ‗The Digital Dead Sea Scrolls‘
project allow users to examine and explore these most ancient manuscripts from
Second Temple times. Google and Israel Museum partnered for this project. The
website gives users access to searchable, fast-loading, high-resolution images of
the scrolls, as well as short explanatory videos and background information on the
texts and their history. The project, started by a single engineer in Google‘s Haifa
office, has become the standard for more ambitious Google digitizing projects,
with the Paris office using the system developed in Israel to digitize what will
eventually be thousands of historic archives and documents.
HP: HP has eight major facilities in Israel, one dedicated to the country‘s local
business along with seven R&D centers. Established in 1994, Hewlett-Packard
Labs Israel is an excellence center focusing on research in big data analysis,
machine learning, and data mining. The Haifa lab is taking the lead in reinventing
analytics for the era of Memory-driven Computing and in building the platforms,
technologies, and tools required to gather, synthesize and interpret massive
volumes of data in real-time.
IBM- IBM Research - Haifa is the largest lab of IBM Research Division outside
of the United States. Founded as a small scientific center in 1972, it grew into a
major lab that leads the development of innovative technological products and
solutions for the IBM corporation. The Lab works with IBM development and
15. services arms, partners with clients to answer their needs, and collaborates with
universities to promote industrial research. Its major projects are related to cloud,
storage, big data, social analytics, mobile, security, and quality. The lab also
focuses on two industry domains: healthcare and retail. IBM Israel also has a
software lab ILSL and cybersecurity center of excellence.
Marvell Technology Group - A producer of storage, communications and
consumer semiconductor products. The company was founded in 1995 and has
approximately 7,500 employees, 1,200 of whom, or nearly 20%, are in Israel.
Marvell Software Solutions Israel is a wholly owned subsidiary of Marvell
Technology group that specializes in LAN technologies.
Directory of Israeli hi-tech companies: http://www.science.co.il/companies/
Silicon Wadi, a hub of high-tech industries in Israel, similar to Silicon Valley in
California, US, it is one of the world‘s most dynamic startup ecosystems. The area
covers much of the country, although especially high concentrations of hi-tech
industry can be found in the area around Tel Aviv, including small clusters around
the cities of Ra'anana, Petah Tikva, Herzliya, Netanya, the academic city of
Rehovot and its neighbor Rishon Le Zion. In addition, hi-tech clusters can be
found in Haifa and Caesarea. More recent hi-tech establishments have been raised
in Jerusalem, and in towns such as Yokneam Illit and Israel's first "private city,"
Airport City, near Tel Aviv. (Source: Wikipedia)
Startup Nation
As per the recent rankings, Tel Aviv, Israel's capital city, ranks number five in the
top 20 global startup ecosystems in the world. Israel‘s startup ecosystem is vibrant,
Tel Aviv provides all the platforms necessary to facilitate innovation and R&D,
simple administrative procedures create ease of doing business environment and
foster entrepreneurship. Israel Prime Minister Benjamin Netanyahu has said "As
far as the 'startup nation' I think this has a lot to do with entrepreneurial spirit. I
have noticed that in Silicon Valley (USA), you hear Indian dialects and you hear
Hebrew, sometimes you hear some English, which means there is a lot of spirit for
16. enterprise in both our countries." Few days back Israeli-born billionaire Haim
Saban has announced to set up a new fund to invest $100 million in Israeli startups.
The fund will invest in startups in the mobile, social networks, e-commerce, and
digital media sectors. Israeli startups are known for cutting-edge technologies,
advanced medical devices, FinTech solutions, cyber security, IoT and cool gadgets
and apps. Israel‘s spirit and innovation culture are remarkable.
Let’s take a look at some popular and innovative Israeli Startups and their
products [10]:
Dojo Labs - Dojo labs designed a security technology that gets connects to the
network and acts as the essential layer between smart devices and security and
privacy threats. It monitors all data sent by anything connected to the Internet. If
Dojo observes any suspicious activity it sends alert on Dojo mobile app and allow
the user to remotely turn the device off or block its communications. Dojo is
founded in 2014 by Yossi Atias and Smulik Bachar.
SniffPhone - Designed by Prof. Hossam Haick of Technion Institute, this device
can sense disease on the breath. SniffPhone uses nanotechnology to analyze breath
and it is able to detect lung cancer as well. SniffPhone is a mobile device that can
be taken to anywhere, which makes it useful for rural areas.
ZUtA Labs - ZUtA is a mini robotic printer; it connects directly to smartphone
and to PCs and allows the user to print on any size piece of paper. This printer is
designed by Israeli firm Nekuda, it works on Bluetooth and wireless networks.
ZUtA is founded in 2014 by Tuvia Elbaum and Matan Caspi, ZUtA (which means
―small‖ in Hebrew) and it won the best of innovation award at CES 2015.
SkySaver - SkySaver is an emergency backpack that‘s designed to escape from
high-rises when a fire breaks out. This lifesaving kit equipped with a cable cord of
approximately 80 meters that, in the case of an emergency, is attached to a pre-
installed anchor located near a window. When a fire breaks out, the emergency
device is strapped on with buckles that wrap around the waist and between the
legs. Founded in 2012 by Eli Gross, SkySaver is truly a life saver!
Singlecue - Singlecue designed by EyeSight Technologies is a home automation
device. Through Singlecue, you can control your TV, media and smart homes
17. devices using touch-free gestures. Just lift your finger and get control over the
devices. This device can recognize almost anything with an infrared, Wi-Fi, or
Bluetooth sensor. Launched in 2014, Singlecue is a cool gadget in IoT space.
Tridom - Urban development startup Tridom designed a 3D-printed space home
for NASA. Founded in 2014 by Yaron Schwarcz and Lior Aharoni, Tridom
presented in September a model of an inflatable structure that could be blown up
with a small amount of liquefied natural gas once on Planet Mars.
Pixie - Pixie‘s technology uses a Location-of-Things platform to derive the precise
location of our valuables at all times. The system uses Pixie Points, the smart tags
that we can affix to anything (even your pet) and a mobile app. After attaching this
tag the object gets pixified that is it joins a closed, private network of all of the
pixified items that smartphone keeps track of via Bluetooth. Pixie app displays an
augmented reality view using your smartphone‘s camera. Each Pixie Point has a
50-foot range indoors and a 150-foot range outdoors. Pixie is founded in 2011 by
Amir Bassan-Eskenazi and Ofer Friedman.
G-RO - It‘s a smart suitcase that charges our phone and laptop on the go. G-RO is
developed by Israeli startup Travel-Light, founded by Netta Shalgi and Ken Hertz,
the product was launched in October 2015.
HomeBioGas - This biodigester turns organic waste into fertilizers and biofuel for
cooking. It‘s a new ―Off the Grid‖ biogas system, produces daily clean cooking gas
for 3 meals and 10 liters of clean natural liquid fertilizer. It is really an amazing
product for home and environment. HomeBioGas is founded by Ron Gonen and
Thomas H. Cullhane.
Cyber Security
The combination of Israel‘s defense expertise and technological capabilities has
turned Cyber security into one of its most important exports. According to Israel‘s
National Cyber Bureau, Israel accounted for 10 percent of global security
technology, and sales of its security software topped $60 billion in 2014.
18. In the words of Dudu Mimran, CTO of the Cyber Security Research Center at Ben-
Gurion University ―The challenging environment Israel faces in the Middle East in
the physical world has reflections also on the cyber world. Security is a subject that
can be taught theoretically, but nothing is a substitute for a real hands-on
experience and we‘ve got lots of it.‖ Israel‘s cyber security ecosystem is a perfect
blend of mature companies like Check Point, venture capitalists such as Jerusalem
Venture Partners (JVP) Cyber Labs and research collaborations such as the
Deutsche Telekom Innovation Laboratories and Ben-Gurion University [11].
Some popular Israeli cyber security companies are:
CyberArk Software, Imperva Data Center Security Solutions, ThetaRay,
CyberSeal, BioCatch, Seculert, Votiro, Argus Cyber Security, SenseCy, Check
Point Software Technologies, Covertix, and Lacoon Mobile Security.
Advanced Technology Park of Israel: In Sep‘ 2013 Israel‘s Prime Minister
Benjamin Netanyahu inaugurated Advanced Technology Park on the campus of
Ben Gurion University in Be‘er Sheva. The primary mission of the Advanced
Technologies Park is to promote technology and commercialization of cutting-edge
research and innovation being developed through BGU (BEN-GURION
UNIVERSITY) and affiliate institutions. ATP creates a symbiotic relationship
between three potent entities: Academe, Tech companies, and Israeli Defense
Force. Dr. Moti Herskowitz (Dean of Research and Development, BGU) said ―Our
research model is that we have no model, which is the strength of it. We deal with
it case by case‖. I appreciate his view because R&D team should think like this.
One of the BGU‘s key catalysts in bridging the gap between academe and industry
is its commercialization arm, BGN Technologies, which uses a unique model of
technology transfer, under this model the university takes valuable ideas and brings
them to market by partnering with a company or selling the company a patent. So
far BGN Technologies has signed agreements with over 150 companies, including
ExxonMobile, Johnson & Johnson, Siemens, and General Motors. BGN
Technologies has been so successful at this that universities from the U.S. and
Europe are studying their approach [12].
In this case study, I have covered the most attractive sectors of Israel and I believe
there is still a lot to cover. While I was writing this case study, I observed the latest
19. trends of BDS movement. Boycott, Divestment, and Sanctions is a campaign
that was started in July 2005 by Palestinian NGOs to make economic and social
pressure on Israel. I believe Israel, as a nation is accustomed to handling all this
and such trends, can not affect the spirit of Israel.
20. About the Author
Devsena Mishra is the founder of a2zstartup and director of DappsTech. Devsena
promotes advanced technologies, startup ecosystem and government‘s business
and technology related initiatives like Digital India, Make in India and Startup
India etc. through her portals, articles, videos, and books.
Devsena is Certified Scrum Developer, Certified Scrum Product Owner, Certified
Scrum Master, Six Sigma Black Belt, Lean Certified, PRINCE2 practitioner and
ITIL certified. She has earned some 29 international certificates in different
technologies (Java/Oracle/Microsoft/SAS) and build up expertise in four
methodologies- Scrum/Agile, Six Sigma, PRINCE2 and ITIL.
Some of her initiatives to promote Brand India are:
A2zstartup.com - To Promote Indian Startup Ecosystem, Advanced Technologies,
and Government Programs.
Integral Humanism and Spirit of Enterprise (IHSE) - Digital Diplomacy Platform
DigitalChannel - For business, technology, and government programs
Devsena has written two books on Digital India, 'DREAM OF A DIGITAL INDIA:
RESEARCH REPORT 2014-15' and 'Digital India Research Report 2016-17'
Her other books are:
'Lean, innovation and the spirit of enterprise'
‗A guide to Scrum Developer‘
Articles Published at Indian Military Review are:
‗Act East Policy and Defence Cooperation‘
'India-Japan Defence and Economic Cooperation'
21. References
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[5] idfblog.com, "Blog: idfblog.com," 20 April 2014. [Online]. Available:
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2016].
[6] T. Rogoway, "Israel's Newest And Most Advanced Submarine Is Their Last Line Of Nuclear
Deterrence," foxtrotalpha.jalopnik.com, 13 Jan 2016.
[7] A. K. Leichman, "20 top tech inventions born of conflict," israel21c.org, 7 Aug 2014.
[8]"Science & Technology: Jewish Virtual Library," [Online]. Available:
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[9] D. SHAMAH, "65 years on, Israel is top choice for tech by multinationals," The Times of Israel, 16
April 2013.
[10] E. Paz-Frankel, "Meet The Winners: The Coolest Israeli Startups And Innovations Of 2015,"
nocamels.com, 30 Dec 2015.
[11] P. Suciu, "Why Israel dominates in cyber security," Fortune, 1 Sep 2015.
[12] J. Hiner, "How Israel is rewriting the future of cybersecurity and creating the next Silicon
Valley".TechRepublic.