On average, 60% of the world's people and cargo is transported by vehicle that move on rubber tires over roadways of various construction, composition, and quality. The number of such vehicles, including automobiles and all manner of trucks, increases continually with a growing positive impact on accessibility and a growing negative impact on interactions among humans and their relationship to the surrounding environment. This multiplicity of vehicles, through their physical impact and their emissions, is responsible for, among other negative results: waste of energy, pollution through emission of harmful compounds, degradation of road surfaces, crowding of roads leading to waste of time and increase of social stress, and decrease in safety and comfort. In particular, the safety of vehicular traffic depends on a man-vehicle-road system that includes both active and passive security controls. In spite of the drawbacks mentioned above, the governments of almost every country in the world not only expect but facilitate improvements in vehicular transport performance in order to increase such parameters as load capacity and driving velocity, while decreasing such parameters as costs to passengers, energy resources investments, fuel consumption, etc. Some of the problems have clear, if not always easily attainable, solutions.
On average, 60% of the world's people and cargo is transported by vehicle that move on rubber tires over roadways of various construction, composition, and quality. The number of such vehicles, including automobiles and all manner of trucks, increases continually with a growing positive impact on accessibility and a growing negative impact on interactions among humans and their relationship to the surrounding environment. This multiplicity of vehicles, through their physical impact and their emissions, is responsible for, among other negative results: waste of energy, pollution through emission of harmful compounds, degradation of road surfaces, crowding of roads leading to waste of time and increase of social stress, and decrease in safety and comfort. In particular, the safety of vehicular traffic depends on a man-vehicle-road system that includes both active and passive security controls. In spite of the drawbacks mentioned above, the governments of almost every country in the world not only expect but facilitate improvements in vehicular transport performance in order to increase such parameters as load capacity and driving velocity, while decreasing such parameters as costs to passengers, energy resources investments, fuel consumption, etc. Some of the problems have clear, if not always easily attainable, solutions.
This book presents the legal and political factors determining international relations, including the processes of integration in all their complexity. The overall structure of the book, together with the composition of its separate chapters, allows for some general assumptions, identifying the main tendencies and placing them in a contemporary social context as well as establishing their relations with the practices of today. The content is a compendium of basic information and data related to the international processes which occur within specific formal, legal and political frames. The book is divided into five parts featuring not only deep historical context but most of all presenting current information and analyses of the last few years. Presented against the background and within the context of the Kingdom of Sweden’s political system and its international environment, the book brings into the foreground issues of particular importance for Sweden’s continuing European integration process and describes its response to the developments in the international situation.
This book contributes to the identification and systematisation of current telematics solutions applied in maritime and inland waterway transport. It represents the first time that most telematics systems currently applied in the modes of water transport have been described in detail. The volume details the massive scope of the application of telematics solutions in maritime transport, showing how it ranges from simple systems of navigation to unmanned systems which have resulted in the first attempts at launching fully autonomic vessels. The current challenges in the field involve the integration of the systems of maritime and inland waterway transport within the framework of multimodal transport operations.
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