Introducing and analyzing the Scope and Benefits of the Regulation「Statute for Upgrading Industries」in The Biotechnology Industry in Taiwan

I.Introduction Having sustained the negative repercussions following the global financial crisis of 2008, Taiwan’s average economic growth rate decreased from 4.4 percent (during 2000-2007 years) to 3 percent (2008-2012). This phenomenon highlighted the intrinsic problems the Taiwanese economic growth paradigm was facing, seen from the perspective of its development momentum and industrial framework: sluggish growth of the manufacturing industries and the weakening productivity of the service sector. Moreover, the bleak investment climate of the post-2008 era discouraged domestic investors injecting capital into the local economy, rendering a prolonged negative investment growth rate. To further exacerbation, the European Debt Crisis of 2011 – 2012 has impacted to such detriment of private investors and enterprises, that confidence and willingness to invest in the private sector were utterly disfavored. It can be observed that as Taiwan’s industrial core strength is largely concentrated within the the manufacturing sector, the service sector, on the other hand, dwindles. Similarly, the country’s manufacturing efforts have been largely centered upon the Information & Communications Technology (ICT) industry, where the norm of production has been the fulfillment of international orders in components manufacturing and Original Equipment Manufacturing (OEM). Additionally, the raising-up of society’s ecological awareness has further halted the development of the upstream petrochemical and metal industry. Consumer goods manufacturing growth impetus too has been stagnated. Against the backdrop of the aforementioned factors at play as well as the competitive pressure exerted on Taiwan by force of the rapid global and regional economic integration developments, plans to upgrade and transform the existing industrial framework, consequently, arises out as an necessary course of action by the state. Accordingly, Taiwan’s Executive Yuan approved and launched the “Industrial Upgrading and Transformation Action Plan”, on the 13th of October 2014, aiming to reform traditional industries, reinforcing core manufacturing capacities and fostering innovative enterprises, through the implementation of four principal strategies: Upgrading of Product Grade and Value, Establishment of Complete Supply Chain, Setting-up of System Integration Solutions Capability, Acceleration of Growth in the Innovative Sector. II.Current challenges confronting Taiwanese industries 1.Effective apportionment of industrial development funds Despite that Research and Development (R&D) funds takes up 3.02% of Taiwan’s national GDP, there has been a decrease of the country’s investment in industrial and technology research. Currently Taiwan’s research efforts have been directed mostly into manufacturing process improvement, as well as into the high-tech sector, however, traditional and service industries on the other hand are lacking in investments. If research funds for the last decade could be more efficiently distributed, enterprises would be equally encouraged to likewise invest in innovation research. However, it should be noted that Taiwan’s Small and Medium Enterprises (SME) based on their traditional developmental models, do not place research as their top priority. Unlike practices in countries such as Germany and Korea, the research fund input by private enterprises into academic and research institutions is still a relatively unfamiliar exercise in Taiwan. With regards to investment focus, the over-concentration in ICTs should be redirected to accommodate growth possibilities for other industries as well. It has been observed that research investments in the pharmaceutical and electric equipment manufacturing sector has increased, yet in order to not fall into the race-to-the-bottom trap for lowest of costs, enterprises should be continually encouraged to develop high-quality and innovative products and services that would stand out. 2.Human talent and labor force issues Taiwan’s labor force, age 15 to 64, will have reached its peak in 2015, after which will slowly decline. It has been estimated that in 2011 the working population would amount to a meager 55.8%. If by mathematical deduction, based on an annual growth rate of 3%, 4% and 5%, in the year 2020 the labor scarcity would increase from 379,000, 580,000 to 780,000 accordingly. Therefore, it is crucial that productivity must increase, otherwise labor shortage of the future will inevitably stagnate economic growth. Notwithstanding that Taiwan’s demographical changes have lead to a decrease in labor force; the unfavorable working conditions so far has induced skilled professionals to seek employment abroad. The aging society along with decrease in birth rates has further exacerbated the existing cul-de-sac in securing a robust workforce. In 1995 the employment rate under the age of 34 was 46.35%, yet in 2010 it dropped to a daunting 37.6%. 3.Proportional land-use and environmental concerns Taiwan’s Environmental Impact Assessment (EIA) is a time-consuming and often unpredictable process that has substantially deterred investor’s confidence. Additionally, there exists a disproportionate use of land resources in Taiwan, given that demand for its use predominantly stems from the northern and middle region of the country. Should the government choose to balance out the utilization of land resources across Taiwan through labor and tax policies, the situation may be corrected accordingly. III.Industrial Upgrading and Transformation Strategies The current action plan commences its implementation from October 2014 to end of December 2024. The expected industrial development outcomes are as follows: (1) Total output value of the manufacturing sector starting from 2013 at NTD 13.93 trillion is expected to grow in 2020 to NTD 19.46 trillion. (2) Total GDP of the service sector, starting at 3.03 trillion from 2011 is expected to grow in 2020 to 4.75 trillion NTD. 1.Strategy No.1 : Upgrading of product grade and value Given that Taiwan’s manufacturing industry’s rate for added value has been declining year after year, the industry should strive to evolve itself to be more qualitative and value-added oriented, starting from the development of high-end products, including accordingly high-value research efforts in harnessing essential technologies, in the metallic materials, screws and nuts manufacturing sector, aviation, petrochemical, textile and food industries etc. (1) Furtherance of quality research Through the employment of Technology Development Program (TDP) Organizations, Industrial TDP and Academic TDP, theme-based and pro-active Research and Development programs, along with other related secondary assistance measures, the industrial research capability will be expanded. The key is in targeting research in high-end products so that critical technology can be reaped as a result. (2) Facilitating the formation of research alliances with upper-, mid- and downstream enterprises Through the formation of research and development alliances, the localization of material and equipment supply is secured; hence resulting in national autonomy in production capacity. Furthermore, supply chain between industrial component makers and end-product manufacturers are to be conjoined and maintained. National enterprises too are to be pushed forth towards industrial research development, materializing the technical evolution of mid- and downstream industries. (3) Integrative development assistance in Testing and Certification The government will support integrative development in testing and certification, in an effort to boost national competitive advantage thorough benefitting from industrial clusters as well as strengthening value-added logistics services, including collaboration in related value-added services. (4) Establishment of international logistics centre Projection of high-value product and industrial cluster image, through the establishment of an international logistics centre. 2.Strategy No.2 : Establishment of a Complete Supply Chain The establishing a robust and comprehensive supply chain is has at its aim transforming national production capabilities to be sovereign and self-sustaining, without having to resort to intervention of foreign corporations. This is attained through the securing of key materials, components and equipments manufacturing capabilities. This strategy finds its application in the field of machine tool controllers, flat panel display materials, semiconductor devices (3D1C), high-end applications processor AP, solar cell materials, special alloys for the aviation industry, panel equipment, electric vehicle motors, power batteries, bicycle electronic speed controller (ESC), electrical silicon steel, robotics, etc. The main measures listed are as follows: (1) Review of industry gaps After comprehensive review of existing technology gaps depicted by industry, research and academic institutions, government, strategies are to be devised, so that foreign technology can be introduced, such as by way of cooperative ventures, in order to promote domestic autonomous development models. (2) Coordination of Research and Development unions – building-up of autonomous supply chain. Integrating mid- and downstream research and development unions in order to set up a uniform standard in equipment, components and materials in its functional specifications. (3) Application-theme-based research programs Through the release of public notice, industries are invited to submit research proposals focusing on specific areas, so that businesses are aided in developing their own research capabilities in core technologies and products. (4) Promotion of cross-industry cooperation to expand fields of mutual application Continuously expanding field of technical application and facilitating cross-industry cooperation; Taking advantage of international platform to induce cross-border technical collaboration. 3.Strategy No.3 : Setting-up of System Integration Solutions capability Expanding turnkey-factory and turnkey-project system integration capabilities, in order to increase and stimulate export growth; Combination of smart automation systems to strengthen hardware and software integration, hence, boosting system integration solution capacity, allowing stand-alone machinery to evolve into a total solution plant, thus creating additional fields of application and services, effectively expanding the value-chain. These type of transitions are to be seen in the following areas: turnkey-factory and turnkey-project exports, intelligent automated manufacturing, cloud industry, lifestyle (key example: U-Bike in Taipei City) industry, solar factory, wood-working machinery, machine tools, food/paper mills, rubber and plastic machines sector. Specific implementation measure s includes: (1) Listing of national export capability – using domestic market as test bed for future global business opportunities Overall listing of all national system integration capabilities and gaps and further assistance in building domestic “test beds” for system integration projects, so that in the future system-integration solutions can be exported abroad, especially to the emerging economies (including ASEAN, Mainland China) where business opportunities should be fully explored. The current action plan should simultaneously assist these national enterprises in their marketing efforts. (2) Formation of System Integration business alliances and Strengthening of export capability through creation of flagship team Formation of system integration business alliances, through the use of national equipment and technology, with an aim to comply with global market’s needs. Promotion of export of turnkey-factory and turnkey-projects, in order to make an entrance to the global high-value system integration market. Bolstering of international exchanges, allowing European and Asian banking experts assist Taiwanese enterprises in enhancing bids efforts. (3) Establishing of financial assistance schemes to help national enterprises in their overseas bidding efforts Cooperation with financial institutes creating financial support schemes in syndicated loans for overseas bidding, in order to assist national businesses in exporting their turnkey-factories and turnkey-solutions abroad. 4. Strategy No.4 : Acceleration of growth in the innovative sectors Given Taiwan economy’s over-dependence on the growth of the electronics industry, a new mainstream industry replacement should be developed. Moreover, the blur distinction between the manufacturing, service and other industries, presses Taiwan to develop cross-fields of application markets, so that the market opportunities of the future can be fully explored. Examples of these markets include: Smart Campus, Intelligent Transportation System, Smart Health, Smart City, B4G/5G Communications, Strategic Service Industries, Next-Generation Semiconductors, Next-Generation Visual Display, 3D Printing, New Drugs and Medical Instruments, Smart Entertainment, Lifestyle industry (for instance the combination of plan factory and leisure tourism), offshore wind power plant, digital content (including digital learning), deep sea water. Concrete measures include: (1) Promotion of cooperation between enterprises and research institutions to increase efficiency in the functioning of the national innovation process Fostering of Industry-academic cooperation, combining pioneering academic research results with efficient production capability; Cultivation of key technology, accumulation of core intellectual property, strengthening integration of industrial technology and its market application, as well as, establishment of circulation integration platform and operational model for intellectual property. (2) Creating the ideal Ecosystem for innovation industries Strategic planning of demo site, constructing an ideal habitat for the flourishing of innovation industries, as well as the inland solution capability. Promotion of international-level testing environment, helping domestic industries to be integrated with overseas markets and urging the development of new business models through open competition. Encouraging international cooperation efforts, connecting domestic technological innovation capacities with industries abroad. (3) Integration of Cross-Branch Advisory Resources and Deregulation to further support Industrial Development Cross-administrations consultations further deregulation to support an ideal industrial development environment and overcoming traditional cross-branch developmental limitations in an effort to develop innovation industries. IV. Conclusion Taiwan is currently at a pivotal stage in upgrading its industry, the role of the government will be clearly evidenced by its efforts in promoting cross-branch/cross-fields cooperation, establishing a industrial-academic cooperation platform. Simultaneously, the implementation of land, human resources, fiscal, financial and environmental policies will be adopted to further improve the investment ambient, so that Taiwan’s businesses, research institutions and the government could all come together, endeavoring to help Taiwan breakthrough its currently economic impasse through a thorough industrial upgrading. Moreover, it can be argued that the real essence of the present action plan lies in the urge to transform Taiwan’s traditional industries into incubation centers for innovative products and services. With the rapid evolution of ICTs, accelerating development and popular use of Big Data and the Internet of Things, traditional industries can no longer afford to overlook its relation with these technologies and the emerging industries that are backed by them. It is only through the close and intimate interconnection between these two industries that Taiwan’s economy would eventually get the opportunity to discard its outdated growth model based on “quantity” and “cost”. It is believed that the aforementioned interaction is an imperative that would allow Taiwanese industries to redefine its own value amidst fierce global market competition. The principal efforts by the Taiwanese government are in nurturing such a dialogue to occur with the necessary platform, as well as financial and human resources. An illustration of the aforementioned vision can be seen from the “Industrie 4.0” project lead by Germany – the development of intelligent manufacturing, through close government, business and academic cooperation, combining the internet of things development, creating promising business opportunities of the Smart Manufacturing and Services market. This is the direction that Taiwan should be leading itself too. References 1.Executive Yuan, Republic of China http://www.ey.gov.tw/en/（last visited: 2015.02.06） 2.Industrial Development Bureau, Ministry of Economic Affairs http://www.moeaidb.gov.tw/（last visited: 2015.02.06） 3.Industrial Upgrading and Transformation Action Plan http://www.moeaidb.gov.tw/external/ctlr?PRO=filepath.DownloadFile&f=policy&t=f&id=4024（last visited: 2015.02.06）

Recognized that Research infrastructures (RIs) are at the centre of the knowledge triangle of research, education and innovation and play an increasingly important role in the advancement of knowledge and technology, the EU began to finance for the establishments of RIs by its Framework Programmes (FPs) since the start of FP2 of 1987. On the other hand, the EU also assigned the European Strategy Forum on Research Infrastructures (ESFRI) to develop a coherent and strategy-led approach to policy-making on RIs between Member States and to facilitate the better use and development of RIs at EU and international level. Based on those efforts, the European Commission understood that a major difficulty in setting up RIs between EU countries is the lack of an adequate legal framework allowing the creation of appropriate partnerships and proposed a legal framework for a European research infrastructure adapted to the needs of such facilities. The new legal framework for a European Research Infrastructure Consortium (ERIC) entered into force on 28 August 2009. An successfully-set-up ERIC will have the legal personality based on EU law, and can benefit from exemptions from VAT and excise duty in all EU Member States and may adopt its own procurement procedures to get rid of the EU's public procurement procedures. It is predicted that the Biobanking and Biomolecular Resources Research Infrastructure (BBMRI) will apply to become a BBMRI-ERIC in the near future. The EU also seeks to lead in Energy, Food and Biology through the reforms of ERICs to assist the high quality of activities of European scientists and attract the best researchers from around the world. Besides, in order to connect the knowledge triangle effectively, the European Commission also established the European Institute of Innovation and Technology (EIT) on March 2008. It hopes through the research development partnership network to gather all the advantages from the science and technology chains of multiple areas, and make an effort for the strategy of EU innovation development jointly；Meanwhile, extends its roadmap to the objectives and practices of the Knowledge and Innovation Communities (KICs) of the EIT. Contrast with the EU's advance, it is necessary to our government to concentrate and contemplate whether it is the time to reconsider if our existing legal instruments available to domestic research facilities and infrastructures are sufficient enough to reach our science and technology development goals.

I. Introduction 　　When, Finland, this country comes to our minds, it is quite easy for us to associate with the prestigious cell-phone company “NOKIA”, and its unbeatable high technology communication industry. However, following the change of entire cell-phone industry, the rise of smart phone not only has an influence upon people’s communication and interaction, but also makes Finland, once monopolized the whole cell-phone industry, feel the threat and challenge coming from other new competitors in the smart phone industry. However, even though Finland’s cell-phone industry has encountered frustrations in recent years in global markets, the Finland government still poured many funds into the area of technology and innovation, and brought up the birth of “Angry Birds”, one of the most popular smart phone games in the world. The Finland government still keeps the tradition to encourage R&D, and wishes Finland’s industries could re-gain new energy and power on technology innovation, and indirectly reach another new competitive level. 　　According to the Statistics Finland, 46% Finland’s enterprises took innovative actions upon product manufacturing and the process of R&D during 2008-2010; also, the promotion of those actions not merely existed in enterprises, but directly continued to the aspect of marketing and manufacturing. No matter on product manufacturing, the process of R&D, the pattern of organization or product marketing, we can observe that enterprises or organizations make contributions upon innovative activities in different levels or procedures. In the assignment of Finland’s R&D budgets in 2012, which amounted to 200 million Euros, universities were assigned by 58 million Euros and occupied 29% R&D budgets. The Finland Tekes was assigned by 55 million Euros, and roughly occupied 27.5% R&D budgets. The Academy of Finland (AOF) was assigned by 32 million Euros, and occupied 16% R&D budges. The government’s sectors were assigned by 3 million Euros, and occupied 15.2% R&D budgets. Other technology R&D expenses were 2.1 million Euros, and roughly occupied 10.5% R&D. The affiliated teaching hospitals in universities were assigned by 0.36 million Euros, and occupied 1.8% R&D budgets. In this way, observing the information above, concerning the promotion of technology, the Finland government not only puts more focus upon R&D innovation, but also pays much attention on education quality of universities, and subsidizes various R&D activities. As to the Finland government’s assignment of budges, it can be referred to the chart below. 　　As a result of the fact that Finland promotes industries’ innovative activities, it not only made Finland win the first position in “Growth Competitiveness Index” published by the World Economic Forum (WEF) during 2000-2006, but also located the fourth position in 142 national economy in “The Global Competitiveness Report” published by WEF, preceded only by Swiss, Singapore and Sweden, even though facing unstable global economic situations and the European debt crisis. Hence, observing the reasons why Finland’s industries have so strong innovative power, it seems to be related to the Finland’s national technology administrative system, and is worthy to be researched. II. The Recent Situation of Finland’s Technology Administrative System A. Preface 　　Finland’s administrative system is semi-presidentialism, and its executive power is shared by the president and the Prime Minister; as to its legislative power, is shared by the Congress and the president. The president is the Finland’s leader, and he/she is elected by the Electoral College, and the Prime Minister is elected by the Congress members, and then appointed by the president. To sum up, comparing to the power owned by the Prime Minister and the president in the Finland’s administrative system, the Prime Minister has more power upon executive power. So, actually, Finland can be said that it is a semi-predisnetialism country, but trends to a cabinet system. 　　Finland technology administrative system can be divided into four parts, and the main agency in each part, based upon its authority, coordinates and cooperates with making, subsidizing, executing of Finland’s technology policies. The first part is the policy-making, and it is composed of the Congress, the Cabinet and the Research and Innovation Council; the second part is policy management and supervision, and it is leaded by the Ministry of Education and Culture, the Ministry of Employment and the Economy, and other Ministries; the third part is science program management and subsidy, and it is composed of the Academy of Finland (AOF), the National Technology Agency (Tekes), and the Finnish National Fund Research and Development (SITRA); the fourth part is policy-executing, and it is composed of universities, polytechnics, public-owned research institutions, private enterprises, and private research institutions. Concerning the framework of Finland’s technology administrative, it can be referred to below. B. The Agency of Finland’s Technology Policy Making and Management (A) The Agency of Finland’s Technology Policy Making 　　Finland’s technology policies are mainly made by the cabinet, and it means that the cabinet has responsibilities for the master plan, coordinated operation and fund-assignment of national technology policies. The cabinet has two councils, and those are the Economic Council and the Research and Innovation Council, and both of them are chaired by the Prime Minister. The Research and Innovation Council is reshuffled by the Science and Technology Policy Council (STPC) in 1978, and it changed name to the Research and Innovation Council in Jan. 2009. The major duties of the Research and Innovation Council include the assessment of country’s development, deals with the affairs regarding science, technology, innovative policy, human resource, and provides the government with aforementioned schedules and plans, deals with fund-assignment concerning public research development and innovative research, coordinates with all government’s activities upon the area of science, technology, and innovative policy, and executes the government’s other missions. 　　The Research and Innovation Council is an integration unit for Finland’s national technology policies, and it originally is a consulting agency between the cabinet and Ministries. However, in the actual operation, its scope of authority has already covered coordination function, and turns to direct to make all kinds of policies related to national science technology development. In addition, the consulting suggestions related to national scientific development policies made by the Research and Innovation Council for the cabinet and the heads of Ministries, the conclusion has to be made as a “Key Policy Report” in every three year. The Report has included “Science, Technology, Innovation” in 2006, “Review 2008” in 2008, and the newest “Research and Innovation Policy Guidelines for 2011-2015” in 2010. 　　Regarding the formation and duration of the Research and Innovation Council, its duration follows the government term. As for its formation, the Prime Minister is a chairman of the Research and Innovation Council, and the membership consists of the Minister of Education and Science, the Minister of Economy, the Minister of Finance and a maximum of six other ministers appointed by the Government. In addition to the Ministerial members, the Council shall comprise ten other members appointed by the Government for the parliamentary term. The Members must comprehensively represent expertise in research and innovation. The structure of Council includes the Council Secretariat, the Administrative Assistant, the Science and Education Subcommittee, and the Technology and Innovation Subcommittee. The Council has the Science and Education Subcommittee and the Technology and Innovation Subcommittee with preparatory tasks. There are chaired by the Ministry of Education and Science and by the Minister of Economy, respectively. The Council’s Secretariat consists of one full-time Secretary General and two full-time Chief Planning Officers. The clerical tasks are taken care of at the Ministry of Education and Culture. (B) The Agency of Finland’s Technology Policy Management 　　The Ministries mainly take the responsibility for Finland’s technology policy management, which includes the Ministry of Education and Culture, the Ministry of Employment and Economy, the Ministry of Social Affairs and Health, the Ministry of Agriculture and Forestry, the Ministry of Defense, the Ministry of Transport and Communication, the Ministry of Environment, the Ministry of Financial, and the Ministry of Justice. In the aforementioned Ministries, the Ministry of Education and Culture and the Ministry of Employment and Economy are mainly responsible for Finland national scientific technology development, and take charge of national scientific policy and national technical policy, respectively. The goal of national scientific policy is to promote fundamental scientific research and to build up related scientific infrastructures; at the same time, the authority of the Ministry of Education and Culture covers education and training, research infrastructures, fundamental research, applied research, technology development, and commercialization. The main direction of Finland’s national scientific policy is to make sure that scientific technology and innovative activities can be motivated aggressively in universities, and its objects are, first, to raise research funds and maintain research development in a specific ratio; second, to make sure that no matter on R&D institutions or R&D training, it will reach fundamental level upon funding or environment; third, to provide a research network for Finland, European Union and global research; fourth, to support the research related to industries or services based upon knowledge-innovation; fifth, to strengthen the cooperation between research initiators and users, and spread R&D results to find out the values of commercialization, and then create a new technology industry; sixth, to analyze the performance of national R&D system. 　　As for the Ministry of Employment and Economy, its major duties not only include labor, energy, regional development, marketing and consumer policy, but also takes responsibilities for Finland’s industry and technical policies, and provides industries and enterprises with a well development environment upon technology R&D. The business scope of the Ministry of Employment and Economy puts more focus on actual application of R&D results, it covers applied research of scientific technology, technology development, commercialization, and so on. The direction of Finland’s national technology policy is to strengthen the ability and creativity of industries’ technology development, and its objects are, first, to develop the new horizons of knowledge with national innovation system, and to provide knowledge-oriented products and services; second, to promote the efficiency of the government R&D funds; third, to provide cross-country R&D research networks, and support the priorities of technology policy by strengthening bilateral or multilateral cooperation; fourth, to raise and to broaden the efficiency of research discovery; fifth, to promote the regional development by technology; sixth, to evaluate the performance of technology policy; seventh, to increase the influence of R&D on technological change, innovation and society; eighth, to make sure that technology fundamental structure, national quality policy and technology safety system will be up to international standards. (C) The Agency of Finland’s Technology Policy Management and Subsidy 　　As to the agency of Finland’s technology policy management and subsidy, it is composed of the Academy of Finland (AOF), the National Technology Agency (Tekes), and the Finnish National Fund Research and Development (SITRA). The fund of AOF comes from the Ministry of Education and Culture; the fund of Tekes comes from the Ministry of Employment and Economy, and the fund of SITRA comes from independent public fund supervised by the Finland’s Congress. (D) The Agency of Finland’s Technology Plan Execution 　　As to the agency of Finland’s technology plan execution, it mainly belongs to the universities under Ministries, polytechnics, national technology research institutions, and other related research institutions. Under the Ministry of Education and Culture, the technology plans are executed by 16 universities, 25 polytechnics, and the Research Institute for the Language of Finland; under the Ministry of Employment and Economy, the technology plans are executed by the Technical Research Centre of Finland (VTT), the Geological Survey of Finnish, the National Consumer Research Centre; under the Ministry of Social Affairs and Health, the technology plans are executed by the National Institute for Health and Welfare, the Finnish Institute of Occupational Health, and University Central Hospitals; under the Ministry of Agriculture and Forestry, the technology plans are executed by the Finnish Forest Research Institute (Metla), the Finnish Geodetic Institute, and the Finnish Game and Fisheries Research Institute (RKTL); under the Ministry of Defense, the technology plans are executed by the Finnish Defense Forces’ Technical Research Centre (Pvtt); under the Ministry of Transport and Communications, the technology plans are executed by the Finnish Meteorological Institute; under the Ministry of Environment, the technology plans are executed by the Finnish Environment Institute (SYKE); under the Ministry of Financial, the technology plans are executed by the Government Institute for Economic Research (VATT). At last, under the Ministry of Justice, the technology plans are executed by the National Research Institute of Legal Policy.

3.Commission of Technology and Innovation (CTI) 　　The CTI is also an institution dedicated to boosting innovation in Switzerland. Established in 1943, it was known as the Commission for the Promotion of Scientific Research[1]. It was initially established for the purpose of boosting economy and raising the employment rate, and renamed after 1996. The CTI and SNSF are two major entities dedicated to funding scientific research in Switzerland, and the difference between both resides in that the CTI is dedicated to funding R&D of the application technology and industrial technology helpful to Switzerland’s economic development. 　　Upon enforcement of the amended RIPA 2011, the CTI was officially independent from the Federal Office for Professional Education and Technology (OEPT) and became an independent entity entitled to making decisions and subordinated to the Federal Department of Economic Affairs (FDEA) directly[2]. The CTI is subject to the council system, consisting of 65 professional members delegated from industrial, academic and research sectors. The members assume the office as a part time job. CTI members are entitled to making decisions on funding, utilization of resources and granting of CTI Start-up Label independently[3]. 　　The CTI primarily carries out the mission including promotion of R&D of industrial technology, enhancement of the market-orientation innovation process and delivery of R&D energy into the market to boost industrial innovation. For innovation, the CTI's core mission is categorized into[4]: (1)Funding technology R&D activities with market potential 　　The CTI invests considerable funds and resources in boosting the R&D of application technology and industrial technology. The CTI R&D Project is intended to fund private enterprises (particularly small-sized and medium-sized enterprises) to engage in R&D of innovation technology or product. The enterprises may propose their innovative ideas freely, and the CTI will decide whether the funds should be granted after assessing whether the ideas are innovative and potentially marketable[5]. 　　CTI’s funding is conditioned on the industrial and academic cooperation. Therefore, the enterprises must work with at least one research institution (including a university, university of science and technology, or ETH) in the R&D. Considering that small-sized and medium-sized enterprises usually do not own enough working funds, technology and human resources to commercialize creative ideas, the CTI R&D Project is intended to resolve the problem about insufficient R&D energy and funds of small- and medium-sized enterprises by delivering the research institutions’ plentiful research energy and granting the private enterprises which work with research institutions (including university, university of science and technology, or ETH) the fund. Notably, CTI’s funding is applicable to R&D expenses only, e.g., research personnel’s salary and expenditure in equipment & materials, and allocated to the research institutions directly. Meanwhile, in order to enhance private enterprises' launch into R&D projects and make them liable for the R&D success or failure, CTI’s funding will be no more than 50% of the total R&D budget and, therefore, the enterprises are entitled to a high degree of control right in the process of R&D. 　　The industrial types which the CTI R&D Project may apply to are not limited. Any innovative ideas with commercial potential may be proposed. For the time being, the key areas funded by CTI include the life science, engineering science, Nano technology and enabling sciences, etc.[6] It intends to keep Switzerland in the lead in these areas. As of 2011, in order to mitigate the impact of drastic CHF revaluation to the industries, the CTI launched its new R&D project, the CTI Voucher[7]. Given this, the CTI is not only an entity dedicated to funding but also plays an intermediary role in the industrial and academic sectors. Enterprises may submit proposals before finding any academic research institution partner. Upon preliminary examination of the proposals, the CTI will introduce competent academic research institutions to work with the enterprises in R&D, subject to the enterprises' R&D needs. After the cooperative partner is confirmed, CTI will grant the fund amounting to no more than CHF3,500,000 per application[8], provided that the funding shall be no more than 50% of the R&D project expenditure. 　　The CTI R&D Project not only boosts innovation but also raises private enterprises’ willingness to participate in the academic and industrial cooperation, thereby narrowing the gap between the supply & demand of innovation R&D in the industrial and academic sectors. Notably, the Project has achieved remarkable effect in driving private enterprises’ investment in technology R&D. According to statistical data, in 2011, the CTI solicited additional investment of CHF1.3 from a private enterprise by investing each CHF1[9]. This is also one of the important reasons why the Swiss innovation system always acts vigorously. Table 1 　2005-2011 Passing rate of application for R&D funding Year 2011 2010 2009 2008 2007 2006 2005 Quantity of applications 590 780 637 444 493 407 522 Quantity of funded applications 293 343 319 250 277 227 251 Pass rate 56% 44% 50% 56% 56% 56% 48% Data source: Prepared by the Study (2)Guiding high-tech start-up 　　Switzerland has learnt that high-tech start-ups are critical to the creation of high-quality employment and boosting of economic growth, and start-ups were able to commercialize the R&D results. Therefore, as of 2001, Switzerland successively launched the CTI Entrepreneurship and CTI Startup to promote entrepreneurship and cultivate high-tech start-ups. 1.CTI Entrepreneurship 　　The CTI Entrepreneurship was primarily implemented by the Venture Lab founded by CTI investment. The Venture Lab launched a series of entrepreneurship promotion and training courses, covering day workshops, five-day entrepreneurship intensive courses, and entrepreneurship courses available in universities. Each training course was reviewed by experts, and the experts would provide positive advice to attendants about innovative ideas and business models. Data source: Venture Lab Site Fig. 3 　Venture Lab Startup Program 2.CTI Startup 　　The CTI is dedicated to driving the economy by virtue of innovation as its priority mission. In order to cultivate the domestic start-ups with high growth potential in Switzerland, the CTI Startup project was launched in 1996[10] in order to provide entrepreneurs with the relevant guidance services. The project selected young entrepreneurs who provided innovative ideas, and guided them in the process of business start to work their innovative ideas and incorporate competitive start-ups. 　　In order to enable the funding and resources to be utilized effectively, the CTI Startup project enrolled entrepreneurs under very strict procedure, which may be categorized into four stages[11]: Data source: CTI Startup Site Fig. 4 　Startup Plan Flow Chart 　　In the first stage, the CTI would preliminarily examine whether the applicant’s idea was innovative and whether it was technologically feasible, and help the applicant register with the CTI Startup project. Upon registration, a more concrete professional examination would be conducted at the second stage. The scope of examination included the technology, market, feasibility and management team’s competence. After that, at the stage of professional guidance, each team would be assigned a professional “entrepreneurship mentor”, who would help the team develop further and optimize the enterprise’s strategy, flow and business model in the process of business start, and provide guidance and advice on the concrete business issues encountered by the start-up. The stage of professional guidance was intended to guide start-ups to acquire the CTI Startup Label, as the CTI Startup Label was granted subject to very strict examination procedure. For example, in 2012, the CTI Startup project accepted 78 applications for entrepreneurship guidance, but finally the CTI Startup Label was granted to 27 applications only[12]. Since 1996, a total of 296 start-ups have acquired the CTI Startup Label, and more than 86% thereof are still operating now[13]. Apparently, the CTI Startup Label represents the certification for innovation and on-going development competence; therefore, it is more favored by investors at the stage of fund raising. Table 2 　Execution of start-up plans for the latest three years Quantity of application Quantity of accepted application Quantity of CTI Label granted 2012 177 78 27 2011 160 80 26 2010 141 61 24 Data source: CTI Annual Report, prepared by the Study 　　Meanwhile, the “CTI Invest” platform was established to help start-up raise funds at the very beginning to help commercialize R&D results and cross the valley in the process of R&D innovation. The platform is a private non-business-making organization, a high-tech start-up fund raising platform co-established by CTI and Swiss investors[14]. It is engaged in increasing exposure of the start-ups and contact with investors by organizing activities, in order to help the start-ups acquire investment funds. (3)Facilitating transfer of knowledge and technology between the academic sector and industrial sector 　　KTT Support (Knowledge & Technology Transfer (KTT Support) is identified as another policy instrument dedicated to boosting innovation by the CTI. It is intended to facilitate the exchange of knowledge and technology between academic research institutions and private enterprises, in order to transfer and expand the innovation energy. 　　As of 2013, the CTI has launched a brand new KTT Support project targeting at small-sized and medium-sized enterprises. The new KTT Support project consisted of three factors, including National Thematic Networks (NTNs), Innovation Mentors, and Physical and web-based platforms. Upon the CTI’s strict evaluation and consideration, a total of 8 cooperative innovation subjects were identified in 2012, namely, carbon fiber composite materials, design idea innovation, surface innovation, food study, Swiss biotechnology, wood innovation, photonics and logistics network, etc.[15] One NTN would be established per subject. The CTI would fund these NTNs to support the establishment of liaison channels and cooperative relations between academic research institutions and industries and provide small- and medium-sized enterprises in Switzerland with more rapid and easy channel to access technologies to promote the exchange of knowledge and technology between both parties. Innovation Mentors were professionals retained by the CTI, primarily responsible for evaluating the small-sized and medium-sized enterprises’ need and chance for innovation R&D and helping the enterprises solicit competent academic research partners to engage in the transfer of technology. The third factor of KTT Support, Physical and web-based platforms, is intended to help academic research institutions and private enterprises establish physical liaison channels through organization of activities and installation of network communication platforms, to enable the information about knowledge and technology transfer to be more transparent and communicable widely. 　　In conclusion, the CTI has been dedicated to enhancing the link between scientific research and the industries and urging the industrial sector to involve and boost the R&D projects with market potential. The CTI’s business lines are all equipped with corresponding policy instruments to achieve the industrial-academic cooperation target and mitigate the gap between the industry and academic sectors in the innovation chain. The various CTI policy instruments may be applied in the following manner as identified in the following figure. Data source: CTI Annual Report 2011 Fig. 5 　Application of CTI Policy Instrument to Innovation Chain III. Swiss Technology R&D Budget Management and Allocation 　　The Swiss Federal Government has invested considerable expenditures in technology R&D. According to statistic data provided by Swiss Federal Statistical Office (FSO) and OECD, the Swiss research expenditures accounted for 2.37% of the Federal Government’s total expenditures, following the U.S.A. and South Korea (see Fig. 6). Meanwhile, the research expenditures of the Swiss Government grew from CHF2.777 billion in 2000 to CHF4.639 billion in 2010, an average yearly growth rate of 5.9% (see Fig. 7). It is clear that Switzerland highly values its technology R&D. Data source: FSO and OECD Fig. 6 Percentage of Research Expenditures in Various Country Governments’ Total Expenditures (2008) Data source: FSO and OECD Fig. 7 　Swiss Government Research Expenditures 2000-2010 1.Management of Swiss Technology R&D Budget 　　Swiss research expenditures are primarily allocated to the education, R&D and innovation areas, and play an important role in the Swiss innovation system. Therefore, a large part of the Swiss research expenditures are allocated to institutions of higher education, including ETH, universities, and UASs. The Swiss research expenditures are utilized by three hierarchies[16] (see Fig. 8): Government R&D funding agencies: The Swiss research budget is primarily executed by three agencies, including SERI, Federal Department of Economic Affairs, Education and Research, and Swiss Agency for Development and Cooperation (SDC). Intermediary R&D funding agencies: Including SNSC and CTI. Funding of R&D performing institutions: Including private enterprises, institutions of higher education and private non-profit-making business, et al. 　　Therefore, the Swiss Government research expenditures may be utilized by the Federal Government directly, or assigned to intermediary agencies, which will allocate the same to the R&D performing institutions. SERI will allocate the research expenditures to institutions of higher education and also hand a lot of the expenditures over to SNSF for consolidated funding to the basic science of R&D. Data source: FSO Fig. 8 　Swiss Research Fund Utilization Mechanism ~to be continued~ [1] ORGANIZATION FOR ECONNOMIC CO-OPERATION AND DEVELOPMENT [OECD], OECD Reviews of Innovation Policy: Switzerland 27 (2006). [2] As of January 1, 2013, the Federal Ministry of Economic Affairs was reorganized, and renamed into Federal Department of Economic Affairs, Education and Research (EAER). [3] The Commission for Technology and Innovation CTI, THE COMMISSION FOR TECHOLOGY AND INNOVATION CTI, http://www.kti.admin.ch/org/00079/index.html?lang=en (last visited Jun. 3, 2013). [4] Id. [5] CTI INVEST, Swiss Venture Guide 2012 (2012), at 44, http://www.cti-invest.ch/getattachment/7f901c03-0fe6-43b5-be47-6d05b6b84133/Full-Version.aspx (last visited Jun. 4, 2013). [6] CTI, CTI Activity Report 2012 14 (2013), available at http://www.kti.admin.ch/dokumentation/00077/index.html?lang=en&download=NHzLpZeg7t,lnp6I0NTU042l2Z6ln1ad1IZn4Z2qZpnO2Yuq2Z6gpJCDen16fmym162epYbg2c_JjKbNoKSn6A-- (last visited Jun. 3, 2013). [7] CTI Voucher, THE COMMISSION FOR TECHOLOGY AND INNOVATION CTI, http://www.kti.admin.ch/projektfoerderung/00025/00135/index.html?lang=en (last visited Jun. 3, 2013). [8] Id. [9] CTI, CTI Activity Report 2011 20 (2012), available at http://www.kti.admin.ch/dokumentation/00077/index.html?lang=en&download=NHzLpZeg7t,lnp6I0NTU042l2Z6ln1ad1IZn4Z2qZpnO2Yuq2Z6gpJCDeYR,gWym162epYbg2c_JjKbNoKSn6A--(last visited Jun. 3, 2013). [10] CTI Start-up Brings Science to Market, THE COMMISSION FOR TECHOLOGY AND INNOVATION CTI, http://www.ctistartup.ch/en/about/cti-start-/cti-start-up/ (last visited Jun. 5, 2013). [11] Id. [12] Supra note 8, at 45. [13] Id. [14] CTI Invest, http://www.cti-invest.ch/About/CTI-Invest.aspx (last visited Jun. 5, 2013). [15] KTT Support, CTI, http://www.kti.admin.ch/netzwerke/index.html?lang=en (last visited Jun.5, 2013). [16] Swiss Federal Statistics Office (SFO), Public Funding of Research in Switzerland 2000–2010 (2012), available at http://www.bfs.admin.ch/bfs/portal/en/index/themen/04/22/publ.Document.163273.pdf (last visited Jun. 20, 2013).