Namen članka je soočenje problematičnega »objektivnega« statusa Severne Koreje kot »demokratične« države (demokratična ljudska republika) na eni strani z monstruozno diktaturo, preoblečeno v liberalni politični diskurz, na drugi. Primer Demokratične ljudske republike Koreje je tako kompleksen in zavajajoč kot njeno ime, zato trdim, da moramo, če naj dojamemo uganko njenega preživetja kot političnega režima ali dinastije, pojasniti še dandanes aktiven gon stalinistične (kvazi-)socialistične modernizacije, ki obvladuje državo po II. svetovni vojni in se opira na Juche, severnokorejsko ideologijo samozadostnosti. ; This paper sets out to balance the problematic "objective" status of North Korea on one hand as a "democratic" state (a democratic people's republic), with its framing in liberal political discourse as a monstrous dictatorship on the other. The case of the Democratic People's Republic of Korea is as complex and misleading as its name, and here I argue that in order to grasp the enigma of its survival as a political regime or dynasty, one must come to terms with the ongoing drive of Stalinist (pseudo-)socialist modernization that gripped the country after World War II, and which dovetails with North Korea's Juche ideology of self-reliance.
The paper discusses how to succeed in the new economy by utilizing e‐business in transforming business processes and strategy. The Collaborative One‐Stop Virtual Engineering Services (COVES) portal provides users with collaborative engineering services for government agencies and private sectors involved in various areas like safety, health and environment. The portal helps in design through modeling and simulation over the Internet for the above sectors. The portal provides a Web‐based environment for tackling the above issues during the design of a factory via the use of e‐computational fluid dynamics. Besides the above, COVES has re‐engineered the traditional business processes associated with construction industry by integrating various enterprises. The portal also improves competitiveness by installing a strong culture of knowledge collaboration and increased accessibility to expensive high‐performance‐computing (HPC) resources and tools. The integrated inter‐enterprise workflow with various public and private parties has simplified the procedure and expedites building plan approvals.
Up-to-date, reliable information on the type, extent and condition of vegetation is increasingly required at a range of scales for a range of policy, regulation and management purposes. This paper describes the development of national level vegetation information frameworks for mapping vegetation across Australia. Vegetation mapping and monitoring in Australia have historically been the responsibility of state governments. In the late 1980s, the Australian and State and Territory governments developed the National Forest Inventory to facilitate the collection and availability of contemporary, valid and standardised forest data to assist in the planning and management for the conservation and use of Australia's forests. The National Vegetation Information System framework (ESCAVI, 2003) expanded this concept for compiling vegetation structure and floristic information for entire landscapes. The National Vegetation Information System framework has recently been used to integrate data from a range of sources to provide a whole-of-landscape view of vegetation, including native, non-native and non-vegetation land covers. Map compilation approaches to vegetation assessment provide only one form of information required for policy, regulation or management decisions. Compiling and updating such snapshots of Australia's vegetation cover provide little, if any, information on the condition of the vegetation. Differences between repeated snapshots through time using this approach are often the result of differences in classification approaches or mapping technologies rather than actual changes in the structure and/or floristics of the vegetation. It is argued that efficient assessment of change in vegetation condition requires repeated measurements of condition indicators at the same sites over time. We present a continental forest monitoring framework design concept to address this concern. Issues that need to be addressed relating to monitoring framework data and map-based information are also discussed in the context of adaptive management for improved natural resource management.
Up-to-date, reliable information on the type, extent and condition of vegetation is increasingly required at a range of scales for a range of policy, regulation and management purposes. This paper describes the development of national level vegetation information frameworks for mapping vegetation across Australia. Vegetation mapping and monitoring in Australia have historically been the responsibility of state governments. In the late 1980s, the Australian and State and Territory governments developed the National Forest Inventory to facilitate the collection and availability of contemporary, valid and standardised forest data to assist in the planning and management for the conservation and use of Australia's forests. The National Vegetation Information System framework (ESCAVI, 2003) expanded this concept for compiling vegetation structure and floristic information for entire landscapes. The National Vegetation Information System framework has recently been used to integrate data from a range of sources to provide a whole-of-landscape view of vegetation, including native, non-native and non-vegetation land covers. Map compilation approaches to vegetation assessment provide only one form of information required for policy, regulation or management decisions. Compiling and updating such snapshots of Australia's vegetation cover provide little, if any, information on the condition of the vegetation. Differences between repeated snapshots through time using this approach are often the result of differences in classification approaches or mapping technologies rather than actual changes in the structure and/or floristics of the vegetation. It is argued that efficient assessment of change in vegetation condition requires repeated measurements of condition indicators at the same sites over time. We present a continental forest monitoring framework design concept to address this concern. Issues that need to be addressed relating to monitoring framework data and map-based information are also discussed in the context of adaptive management for improved natural resource management.
Welfare reforms in the 1990s have shifted governments around the world towards financial assistance conditional on work. While large-scale rigorous research on welfare-to-work programs has demonstrated effectiveness towards employment in other countries, no such micro-level evaluation of a policy has ever been conducted in Singapore. This article describes the process of developing a large experimental evaluation of the Work Support Program, which the Ministry of Community Development, Youth and Sports started in 2006. The lessons learned from planning and implementing the research can be helpful to future researchers in negotiating long-term rigorous evaluations in an environment where collaborators lack sufficient research knowledge. Insights include ways to focus on the essentials, find alternative experimental designs, collaborate effectively, and adapt instruments across cultures.