The participation of developing countries in space research

The Second United Nations Conference on the Exploration and Peaceful Uses of Outer Space (Unispace 82) identified crucial problems and made recommendations on strategies for developing countries to bridge the gap with advanced nations in the area of space technology. This article addresses some issues which, although implicit in the Unispace Report, are not discussed in detail therein. The role of space science and related scientific research is particularly emphasized. Close attention is paid to the role of human factors, such as the motivation to conduct research, the motivation to engage in international cooperation, and the motivation to utilize and exploit space. Possible opportunities for space research for developing countries, as well as relevant issues concerning management of space, are briefly discussed.     

The USA and the 1985 space WARC

This article considers the US policy objectives at the forthcoming WARC-ORB 85 Conference, and argues that with US willingness to modify its position the Conference seems for the first time to provide a good basis for a dialogue between the USA and those countries that feel the existing system is not equitable. Two main problems still need to be considered: the role of common user organizations such as INTELSAT, and the relationship between the Federal Communications Commission and other actors involved in the US international telecommunication decision-making process. Failure to reach agreement at the conference could lead to the USA being the country which suffers most.     

Space technology in developing nations: an assessment

Space technology can make an immense contribution to solving the problems of the world as a whole, and the developing nations in particular. This report summarizes the use of satellites by developing countries in the fields of communications, remote sensing, disaster management and space science. India and China, in particular, have built up impressive capabilities in several of these areas, but the great majority of developing countries still do not have access to this technology. The author addresses a number of proposals to the international community for bringing the satellite revolution to the developing world.     

Basic space science and developing countries

Basic science — including space science — is vital for national development, but developing countries often meet obstacles to participation in the international scientific community. This can be mitigated by international cooperation, particularly in the field of education. The author calls for a concerted effort to increase such cooperation regionally, internationally and bilaterally; international organizations should also become involved. Various forms of cooperation are suggested and UN efforts in the promotion of basic space science are described.     

Remote sensing of Earth resources: emerging opportunities for developing countries

Land information from remote sensing satellites contributes substantially to the quality of decision making in development activities. However, participation in space-related activities by developing countries has historically been low in part due to the high costs and advanced technology inputs required. The paper discusses several technological and socio-political trends which now offer increasingly affordable opportunities for developing countries to increase their level of participation in activities related to satellite remote sensing of earth resources. Benefiting from these opportunities requires appropriate encouragement and support from national governments.     

Increasing the use of Earth observations in developing countries

Earth observation (EO) data have numerous applications that would improve the still dire conditions of life in parts of the developing world. The under-utilization of such information is a result of three perceived inadequacies–inadequate local capacity, inadequate awareness of potential users and inadequate financing. Arguing that none of these problems is as significant as made out, this viewpoint highlights some of the viable EO applications that could be (and at last in some cases are being) used in developing countries and urges the EO community to be more proactive in disseminating information and in matching projects with areas of need.     

Space policy for late comer countries: A case study of South Korea

Korea’s space development program was created almost 40 years behind those of the advanced countries but it has nevertheless made remarkable progress. Korean space development has been focused on technology catch-up, where commercialization and growth of industrial competitiveness are important rationales. However, the program has several problems, including: lack of a space equipment manufacturing industry, total system companies in the space manufacturing industry and communication between industry and researchers, and much concentration of projects and initiatives in the Korean Aerospace Research Institute (KARI). This study analyzes the problem by comparing space agencies and programs in Korea and other countries, particularly Japan and the USA. It is shown that the role of a national laboratory is critical in space industry development and argued that KARI should make greater efforts to promote the Korean space industry by encouraging technology transfer, sharing equipment and communication between companies. For successful space development, the main organization – usually the national research institute – should change its role from a research-only laboratory to manager and supporter of space development and industry. Such a move would invigorate Korea’s space industry and allow it to catch up with countries with a similar environment.     

Space-based societal applications—Relevance in developing countries

Space technology has the vast potential for addressing a variety of societal problems of the developing countries, particularly in the areas of communication, education and health sectors, land and water resources management, disaster management and weather forecasting. Both remote sensing and communication technologies can be used to achieve this goal.With its primary emphasis on application of space technology, on an end-to-end basis, towards national development, the Indian Space Programme has distinguished itself as one of the most cost-effective and development-oriented space programmes in the world.Developing nations are faced with the enormous task of carrying development-oriented education to the masses at the lower strata of their societies. One important feature of these populations is their large number and the spread over vast and remote areas of these nations, making the reaching out to them a difficult task. Satellite communication (Satcom) technology offers the unique capability of simultaneously reaching out to very large numbers, spread over vast areas, including the remote corners of the country. It is a strong tool to support development education. India has been amongst the first few nations to explore and put to use the Satcom technology for education and development-oriented services to the rural masses.Most of the developing countries have inadequate infrastructure to provide proper medical care to the rural population. Availability of specialist doctors in rural areas is a major bottleneck. Use of Satcom and information technology to connect rural clinics to urban hospitals through telemedicine systems is one of the solutions; and India has embarked upon an effective satellite-based telemedicine programme.Space technology is also useful in disaster warning and management related applications. Use of satellite systems and beacons for locating the distressed units on land, sea or air is well known to us. Indian Space Research Organisation (ISRO) is already a part of the International initiative called Satellite Aided Search and Rescue System.The programme to set up satellite-based Village Resource Centres (VRCs) across India, for providing a variety of services relevant to the rural communities, is also a unique societal application of space technology. The VRCs are envisaged as single window delivery mechanism for a variety of space-based products and services, such as tele-education; telemedicine; information on natural resources for planning and development at local level; interactive advisories on agriculture, fisheries, land and water resources management, livestock management, etc.; interactive vocational training towards alternative livelihood; e-governance; weather information; etc.This paper describes the various possibilities and potentials of Satcom and Remote Sensing technologies for societal applications. The initiatives taken by Indian Space Research Organisation in this direction are highlighted.     

An ISY policy for developing and newly industrialized countries

One state policy for International Space Year (ISY) is to pay special attention to the needs of developing countries while planning ISY activities. This article provides a historical context for assessing ISY as an opportunity to turn this policy into practice. A survey of experts involved in ISY planning was undertaken and the results include six recommendations for overcoming the obstacles to developing countries' full participation in ISY: (1) funding from international organizations and national foreign assistance agencies must increase substantially; (2) more attention must be given to improving the flow of information and communication about ISY; (3) education and training opportunities must be made available to a wide audience of developing country participants; (4) steps must be taken now to relieve the political and socioeconomic tensions that exist between North and South, particularly as they relate to ISY; (5) inadequacies in infrastructure must be considered; and (6) data-related obstacles must be examined.     

Data relay satellites and remote sensing: Issues for countries developing space capabilities

Data relay satellites can be used to transmit remotely sensed data gathered by other satellites to processing facilities on Earth. The author examines the advantage and disadvantages of DRS systems, particularly from the point of view of developing countries and the developed countries of the southern hemisphere, such as Australia.     

即将建成的“宇宙城堡”——国际空间站

经过十多年的建造,世界上投入资金最大、参与国家最多、建造周期最长、技术水平最高、应用范围最广的国际空间站于2011年2月基本建成。它包含13个增压舱,其中8个是用于科学实验和航天员居住,1个为空间站提供初始推进、姿控、通信和储存,4个用于对接。另外,还装有7段桁架结构、4对巨型太阳能电池阵、1个移动服务系统、舱外仪器设     

Space: The routes of the future

This paper is an attempt to describe the interplay of factors and constraints that will shape the future of space technology. A demand-pull relationship with the needs of global society is tending to become dominant, except with regard to the field of manned spaceflight. Against this background some guidelines for a European space policy are proposed.     

India''s space policy : A developing country in the ‘Space Club’

Athough a poor nation with limited resources, India has spent large amounts of money on sophisticated space programme. It is pursuing a policy of using high technology to solve the country's social and economic problems, and at the same time to strengthen its international position. Satellite-aided communications, educational programmes, meteorology and resources survey and management are thus priority areas. This article examines the history and achievements of India's space programme, and considers the constraints faced and budget and staffing plans. Foreign policy and national security aspects are covered in detail, including the question of whether India's peaceful space policy can be put to military use.     

Space and Copenhagen: The role of satellites

A half-day meeting on the role of satellites in combating climate change was added on to the eleventh annual European Interparliamentary Space Committee meeting in London, October 2009. Organized by the UK Parliamentary Space Committee and the European Space Policy Institute, the meeting's four speakers covered a range of issues, before engaging in discussion with questions from the floor. The main points raised are presented below.     

美国航天基金会发布《2009年航天报告》

美国航天基金会是一家非营利性组织,成立于1983年,主要研究航天发展态势、市场状况等。其研究数据比较客观,具有一定的参考价值。 该基金会于2009年4月发布的《2009年航天报告》由航天经济、航天产品与服务、基础设施、影响与劳动力以及展望五部分组成,记录了2008年各国政府、公司和创业者们所取得的历史性成就及其继续利用和探测太空的大胆计划,并对未来进行了展望。     

中国航天发展的里程碑——《中国的航天》白皮书

《中国的航天》白皮书是中国政府首次全面、系统地向全世界公开介绍中国航天的发展战略和有关政策,白皮书的发布是中国航天史的一件意义重大、影响深远的里程碑事件。本文介绍了白皮书中一些重要的新概念的形成过程,包括“大航天”的内涵、不同领域在航天活动中的作用和定位等,并简要阐述了由此引出的航天发展的相关政策以及民用航天近期发展思路和规划等。