'Gnglisli summary VOL. 25 . NO. 1 . 1978 IÐNTÆKNISTOFNUN ISLANDS Technological Institute of lceland Skipholt 37 - Reykjavlk - lceland Subscription: lcel. kr. 650/year Long Term Plan on Research and Development p. 3 Leader by Sveinn Björnsson. In the year 1972 the National Research Council of lceland decided to prepare a longterm plan on research and devel- opment in lceland. This plan covers the years 1976 to 1981. The purpose of this longterm plan is mainly to promote research and development in the interests of basic industries by aligning R & D better to their needs and national interests. This plan was prepared after a Norwegian model. Such plans are now matter of routine in Norway. They are presented to the Storting and become a part of the policy of the Govern- ment. In the near future it is planned to introduce the R & D plan to the Althing and the public. Readers of Idnadarmál would do well to pay attention. Plastering - Market estimate p. 4 by Allan M. Mitchison. The author tries to estimate the annual quantity of plaster used in lceland, i. e. sand, cement and chalk and discusses the possibility of preparing a pre-mixed plastering compound in order to reduce and simplify the activity on the building site. Mr. Mitchison also gives tables on total areal of buildings construced in lceland annually in the years 1972 to 1976 and estimated wall surface size of sapne, both inner and outer walls. Icelandic prototype of an electric car P. 6 A brief account of an lcelandic design-inventor, Mr. Steinn Sigurðsson, who has made some international contributions to the development of electric autos. Development and Production of Electronic equip- ment in lceland p. 7 By Páll Theodórsson, Managing Director of the Physical De- partment of the Science Institute, University of lceland. Mr. Theodórsson gives a broad summary of the develop- ment of electronic science and practice since the last World War, when the electronic valve had reached almost the full development stage and the transistor started taking over. The change-over started with the mini-lamps in the fifties and the first generation of the transistors. In about 1960 the printed circuits took over and in 1962 a new technique was introduced with integrated circuits where transistors and other components and connections were concentrated in layers into small cubes about 2 mm each way. In a few words one can describe the electronic evolution thus, that one year later in 1963 about 10 components were concentrated in the same space in a typical combined circuit, and 5 years later in 1968 the number of components was over 300, in 1972 they were over 5000 and to-day there are over 150.000 components in the same space in the most com- plicated units. With this revolutionary evolution the prices also went down steadily. In 1960 the price of one transistor was about kr. 500, five years later it was down to kr. 50 and after 1972 they are even down to 0,10 krónur. The latest revolutionary unit is the microprocessor a very efficient circuit that can control very complicated processes. From this evolutionary description it is evident that pre- mises for development and construction of most electronic gadgets have changed completely within the last decade. Most electronic equipment has to be and will be redesigned in the next decade, not only for research but also for use in homes, offices, factories, farms and boats, for young and for old. We have so far imported almost all electronic equipment used in lceland for an annual sum of some 3-5 milliards kron- er. We should be able to participate in the construction of different electronic apparatus that will be used in the coming years and even export same. Development and assembly of electronic instruments has been practised for almost two decades at the Physical Depart- ment of the University of lceland especially after 1966. Pro- fessor Thorbjörn Sigurgeirsson designed some years ago new instruments for magnetic measurements from an aeroplane. The instruments record the results and this way it is possible to transfer the data automatically with help from the Loran System stations. More then 40 such automatic recorders for earthquake measurements have been made and installed in lceland and soon we will have a system where recordings from a data writing machine will give us all information on where the earthquake originated, at what depth and how strong it was. I have here described the activities of the Physical Department of the University only, but the lcelandic P&T and some private companies are also active in this field. I can just mention that some years ago the lcelandic company Idntækni Ltd. produced some 500 taxi-meters for lcelandic taxi-cabs and they were produced at the lceland Federation of the Flandicapped. This shows what can be done in this country. This is quite a challenge for lcelandic initative. Electronic industry is a clean industry and it is not expensive in the start. One 100 tons fishing vessel costs about 300 Million kr. For half this amount a substantive enterprise in this field can be established. We can and will be active in this business and should start at once. An lcelandic fishing reel winch on Nordic ind. design exhibit p. 11 On the recent occasion of the 10Oth anniversary of the Museum of Industrial Art in Oslo an lcelandic fishing reel winch found its way to a Nordic desing exhibit on electronics, transport equipment and machinery. Design - an underrated factor in industrial development p. 12 by Stefán Snæbjörnsson, ind. designer. The author points out that industrial design and product development have not been given sufficient attention in indus- trial development endeavours during this decade. Mr. Snæ-

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