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1.
基于整数小波变换和改进零树编码的图像压缩方法 总被引:2,自引:0,他引:2
研究了基于整数小波变换和改进零树编码的图像压缩方法:先进行整数小波变换,将图像变换到小波域,再用改进的零树编码对图像进行压缩。给出了试验结果以及与EZW压缩方法的比较,结果表明,整数小波变换和改进零树编码相结合应用于图像压缩是有效的,在一定程度上能缩短计算时间,并提高峰值信噪比。 相似文献
2.
研究了数论函数方程S(SL(n~(11)))=φ_2(n)及S(SL(n~(12)))=φ_2(n)的可解性问题,其中S(n)为Smarandache函数,SL(n)为Smarandache LCM函数,φ_2(n)为广义欧拉函数.利用初等数论的内容方法及计算技巧得到上述两个数论函数方程的所有正整数解. 相似文献
3.
不同气流条件下做青过程青叶的呼吸作用 总被引:3,自引:0,他引:3
为探明不同气流条件对乌龙茶毛茶品质影响的内在生理机制,以毛蟹品种鲜叶为研究对象,在春季和暑季均分别设计恒温、恒风(处理Ⅰ)、恒温、无风(处理Ⅱ)和自然开放(处理Ⅲ)3种环境做青,观测做青过程中青叶呼吸速率的变化.结果表明:春茶做青过程中3个处理青叶的呼吸速率在三摇前均呈上升趋势,三摇后开始下降.暑茶做青过程中,处理Ⅰ和处理Ⅱ的青叶呼吸速率均在每次摇前下降,摇后上升,处理Ⅲ则在二摇后一直保持上升趋势.从春、暑茶做青全过程的平均值来看,均以处理Ⅰ的呼吸速率最大,处理Ⅱ的最小,而暑季各处理青叶的呼吸速率总体上高于春季.处理Ⅰ所制毛茶春茶品质最佳,处理Ⅲ最差,暑茶品质处理Ⅰ最佳,处理Ⅱ最差. 相似文献
4.
Atsushi Yoshimoto 《Journal of Forest Research》2001,6(1):21-30
The objective of this paper is to investigate potential use of a spatially constrained harvest scheduling model for biodiversity
concerns. Change in the degree of biodiversity is represented only by spatial characteristics of harvesting patterns of forest
stands with different exclusion periods applied to adjacent forest stands. A spatially constrained harvest scheduling model
called SSMART (Scheduling System of Management Alternatives foR Timber-harvest) is used for the analysis. It is one of the
heuristics to solve a spatially constrained harvest scheduling problem by using the partitioning heuristic. The algorithm
incorporated into SSMART is designed to seek a solution for a multicriteria problem with present net value maximum, meeting
spatial feasibility and minimizing period-to-period harvest flow fluctuation, approximating even-flow constraints within the
0–1 integer programming framework. Our experimental analysis shows that the longer exclusion period, the less the harvest
flow level and the total present net value are derived and the more heterogeneous the forest structure becomes in terms of
the forest stand age distribution. It is also shown that the three exclusion period results in a stable forest stand age distribution
over the time horizon for our experimental forest.
This research supported by the Grants-in-Aid for Scientific Research (No. 09041071) from the Ministry of Education, Science,
Sports, and Culture of Japan. 相似文献
5.
研究了工业中常遇到的先将原料板切割成加工拼板后,再将拼板切割成单元板的一类矩形板材切割问题,此类问题归结为二维排布的双层优化,针对单元板在拼板上和拼板在原料板上的4种不同排布情形,建立了统一的非线性整数规划模型,根据问题的特点,给出了该模型的一个化双层优化为单层优化的求解算法,实际应用中,该算法能在数秒钟内按工艺要求给出最优切割方案,与传统方法相比,料板利用率常可提高5%~10%. 相似文献
6.
The forest planning system of large Swedish forest owners follows a three step procedure: long-term, medium-term, and short-term planning. The system is sequential and hierarchical in the sense that longer-term plans form the framework for shorter-term plans, and that top-level management prepares the long range plans and the lower management levels develop plans with successively shorter horizons. Studies indicate that this approach does not fully use existing knowledge within the organization. Problems associated with the top-down approach are also recognized in the general literature on organization and management. A proposal for a bottom-up approach is developed that aim at the use of local level knowledge to enhance accuracy and applicability of the forest plans. After top-level management has issued some fundamental planning directives, medium-term planning is conducted by the districts. Then the district plans are consolidated at the top-level for coordination and revision. A simulated planning process provides an illustration of the approach. The Heureka system is used here to optimize harvests and road costs with a mixed integer programming model of the problem, spanning 10 years with three seasons per year. The importance of detailed local knowledge to the outcome of planning is indicated, and needs for continued decision support systems development is discussed. 相似文献
7.
集装箱码头分派车辆的整数规划模型 总被引:1,自引:0,他引:1
建立了一个用于确定集装箱码头一组车辆工作次序的整数规划模型,其中这组车辆是用于把从货仓起重机卸下的集装箱运输到码头的存贮位置。证明了求解这一整数规划模型等价于求解n个车辆安排线路问题的几条路径,并设计了前向搜索算法(FSA)和后向搜索算法(BSA)两种启发式算法,用于确定集装箱码头大型货轮卸货车辆的可行分派方案。 相似文献
8.
Odd Inge Forsberg 《Aquaculture Economics & Management (Blackwell Science)》2013,17(2):143-158
Abstract The main harvest planning problem in commercial fish farms is to determine the best time‐sequence of harvesting different fish cohorts in order to maximize the overall farm profit. Due to both annual and fish‐size variations in market prices, future forecasts of fish growth and size distribution are required to optimize harvest plans. Two management strategies for harvesting size‐structured fish cohorts are considered. The first strategy allows the fish farmer, at any time, to size‐grade, harvest and sell the most profitable fish sizes from the standing stock. The second strategy allows the fish farmer to harvest and sell a fish batch with similar size distribution as that of the standing stock. In this paper, two size‐structured fish growth models have been built to fit the two management strategies. The growth models are integrated in a multiperiod linear programming model that optimizes the harvest outputs for each of the two management strategies. Model outputs demonstrate clearly that it is more profitable to size‐grade fish prior to harvest compared to harvesting a batch of fish with similar size distribution to that of the standing stock. Five different harvest operations constraints have been identified for commercial salmon farming. The decrease in profitability of fish farming is shown for a variety of harvest operation constraints. 相似文献
9.
10.
One of the methods for increasing productivity of water consumed in agriculture is by improved water supply management. This
paper presents results from an optimization study of the Malampuzha irrigation project of the Bharathapuzha river basin of
Kerala in India. The objective of this study is to determine whether significant improvements might be realized from optimization
of operation of the reservoir system. To do this a mixed integer linear programming (MILP) model is developed and five different
management strategies are tested. The result indicates that a management strategy with deficit irrigation by supplying less
water in non-critical growth period and maximum water during stress sensitive periods is a best viable solution for better
performance. A MILP model, rather than a linear programming (LP) model, is used to ensure that the reservoir does not spill
before reaching its capacity. 相似文献