Sharing System(共享系统)研究综述
Sharing System 共享系统 - Recently, a bicycle-sharing system has been greatly spotlighted as a second transportation vehicle. [1] When the demand density is high, the dynamic ride-sharing system can significantly improve traffic conditions, especially during peak hours. [2] Bike-sharing systems (BSS) have raised in popularity in the last years due to their potential share in sustainable cities. [3] Soon after implementing reforms to the tax-sharing system, the People’s Republic of China (PRC) implemented public budgeting reform, and thus formed a new kind of state governance system, the program system (PS). [4] Especially there is a lack of research on the impacts of key operational logistic parameters of the sharing system. [5] The current quantitative and qualitative development of bike-sharing systems worldwide involves particular implications regarding the level of sustainability of urban development and city residents’ quality of life. [6] The development of car-sharing system using electric vehicles (EVs) is a promising solution to mitigate traffic pressure and reduce carbon emissions. [7] In this paper, we propose a data-driven robust optimization model to reduce total travel cost in ride-sharing systems under travel time uncertainty. [8] Problem definition: We study electric vehicle (EV) sharing systems and explore the opportunity for incorporating vehicle-to-grid (V2G) electricity selling in EV sharing. [9] Bikesharing systems have witnessed unprecedented growth and significant scholarly attention in recent years. [10] With an increased focus on minimising traffic externalities in metropolitan areas, a growing interest in environmentally friendly mobility systems has emerged, such as electric car-sharing systems. [11] A ridesharing system helps riders to reach a particular destination driven by the owner of the ride. [12] In this paper, we present an Attention-based ST-GCN (AST-GCN) for predicting the number of available bikes in bike-sharing systems in cities, where the attention-based mechanism is introduced to further improve the performance of an ST-GCN. [13] We analyze data from a long-standing tiered cost-sharing system for primary care gatekeeper clinics. [14] The first two problems analyze a distribution system with uncertain demand in which transshipment and backordering are allowed, the third problem studies the allocation and rebalancing activities in a bikesharing system under uncertain bike demand, and the fourth problem deals with workforce planning decisions considering workers’ stochastic learning curves. [15] Dockless bike-sharing systems (DLBS) have gained much popularity due to their environmentally friendly features. [16] There is no doubt that ideas about living more cooperatively and grounding society in sharing systems rather than individual competition have been part of the culture of the United States since its colonial settler beginnings and that these ideas have deep relevance and potential significance for transforming U. [17] The micro equity financing model employed a profit-sharing system with flexible repayment and without collateral. [18] The advent of ridesharing systems will soon be a reality that will bring about significant changes in transportation while reasonably raising the question of their acceptance by the general public. [19] Revisiting the themes of adoptability, functionality and adaptability of power-sharing systems first raised in the “Introduction,” this concluding chapter assesses commonalities and differences between the cases studied in this volume along these lines. [20] In this paper, we address the core challenges of self-stabilization, obstacle detection, and collision avoidance arising when developing autonomous electric scooters for sharing systems. [21] A bike-sharing system is a shared mobility mechanism that provides an alternative transportation mode for short trips with almost no added travel speed loss. [22] Among the five of preferences, the most dominantly influential preferences is a service provided by the employee, followed by a strong intention to implement Islamic law, the speed of the process of financing, financing requirements, and profit-sharing system applied. [23] The sustainable development of docked bikesharing systems has gained focus again owing to several problems in dockless bikesharing systems, including wanton destruction, theft, illegal parking, loss, and bankruptcy. [24] Bike-sharing systems have made notable contributions to cities by providing green and sustainable mobility service to users. [25] There are four aspects deals with this management, namely the marketing concept, the division of labor, the profit-sharing system, and how the time is divided between education, main work and the startup culinary business. [26] One of the alternative modes of transport, which is becoming more and more popular, is the bike-sharing system. [27] The aim of the article is to define preconditions, challenges and advantages for joint development of educational, scientific and business areas in agrosharing system as general consumption of material goods, natural resources and intellectual property in agricultural sector. [28] As a new generation of Public Bicycle-sharing Systems (PBS), the Dockless PBS (DL-PBS) is an important application of cyber-physical systems and intelligent transportation. [29] Therefore, we recommend an integrated data-sharing system where all the stakeholders can share their information with no fear of losing their market share. [30] Bike-Sharing Systems (BSS), as a green and convenient transportation means, has attracted significant attention and developed rapidly around the world. [31] The results of analysis and discussion can be advised the management of Islamic banks to improve the performance of Islamic banks, so the management of Islamic banks must be able to establish an efficient capital structure, namely by using temporary syirkah funds that use an efficient profit-sharing system and loans with the wadiah system. [32] In a typical bike-sharing system (BSS), riders arrive at a station and take a bike if it is available. [33] One-way electric carsharing systems (OWECS) provide environmentally friendly mobility that enables users to commence and terminate their trips at a preselected station within a region. [34] Most bike-sharing systems in cities aim to maximize demand, an approach that tends to inadvertently favor wealthier neighborhoods. [35] As an indispensable part of public transportation systems, the bike-sharing system (BSS) can improve road resource utilization and alleviate traffic congestion, significantly improving urban mobility. [36] Worldwide bike-sharing systems are growing in popularity as an alternative, environmentally friendly mode of transportation. [37] One-way car-sharing systems, an increasingly prominent transportation means, are facing the vehicle imbalance issue with their emergence. [38] Bicycle-sharing system is a modern personalized public transport network through which people can rent a bicycle from one bicycle stand to the other in their network. [39] Through sensitivity analysis of key parameters, it is found that the station pricing of pure preferential can reduce the using failure rate, but the profitability of the electric carsharing system is weakened. [40] Following the bike-sharing system, the shared e-bike becomes increasingly popular due to the advantage in speed, trip distance, and so forth. [41] SIP4D (Shared Information Platform for Disaster Management), which we developed, is an interagency cooperative information-sharing system. [42] One-way carsharing system has been widely adopted in the carsharing field due to its flexible services. [43] Bike-sharing systems (BSSs) are a mobility service of public bicycles available for shared use that is becoming increasingly popular in urban contexts [. [44] The identification of factors with higher influence in the fair participation of women in the transport sector will help transport planners, bike-sharing system owners, decision-makers, transport companies, and regulatory professionals to develop measures that could plausibly increase the proportion of women as users of BSSs, users of rail public transport, and AVs, as well as employees in the transport sector for a sustainable society. [45] In this work, we investigate the taxi-sharing system, which is a promising system recently. [46] Through a data-driven analysis on a massive openly available dataset, we show our model is robust enough to capture the application of taxi dispatching services and ride-sharing systems. [47] This research aims to find profit-sharing system between landowners and cultivators of tobacco based on Islamic Economic Law, so that it can be used by landowners and cultivators to cooperate in cultivating tobacco fields. [48] Real-time ridesharing systems such as UberPool, Lyft Line, GrabShare have become hugely popular as they reduce the costs for customers, improve per trip revenue for drivers and reduce traffic on the roads by grouping customers with similar itineraries. [49] Basically, the profit-sharing system, fees and margins are designed to bridge anti-usury groups, but not a few of the syari'ah banks use law to wrap a product or contract with the syari'ah label because in practice it is far from theory and principle. [50]近来,共享单车系统作为第二代交通工具备受瞩目。 [1] 当需求密度高时,动态拼车系统可以显着改善交通状况,尤其是在高峰时段。 [2] 由于在可持续城市中的潜在份额,自行车共享系统 (BSS) 在过去几年中越来越受欢迎。 [3] 在实行分税制改革后不久,中华人民共和国(PRC)实施了公共预算改革,从而形成了一种新型的国家治理体制,即计划制(PS)。 [4] 特别是缺乏对共享系统关键运营物流参数影响的研究。 [5] 当前全球共享单车系统的定量和定性发展涉及到对城市发展的可持续性水平和城市居民生活质量的特殊影响。 [6] 使用电动汽车(EV)开发汽车共享系统是缓解交通压力和减少碳排放的有前景的解决方案。 [7] 在本文中,我们提出了一种数据驱动的鲁棒优化模型,以在出行时间不确定的情况下降低拼车系统的总出行成本。 [8] 问题定义:我们研究电动汽车 (EV) 共享系统,并探索将车辆到电网 (V2G) 电力销售纳入电动汽车共享的机会。 [9] 近年来,自行车共享系统见证了前所未有的增长和重大的学术关注。 [10] 随着对减少大都市地区交通外部性的日益关注,人们对环保移动系统的兴趣日益浓厚,例如电动汽车共享系统。 [11] 拼车系统可帮助乘客到达由车主驾驶的特定目的地。 [12] 在本文中,我们提出了一种基于注意力的 ST-GCN (AST-GCN),用于预测城市共享单车系统中可用自行车的数量,其中引入了基于注意力的机制以进一步提高 ST-GCN 的性能。 GCN。 [13] 我们分析了来自初级保健看门人诊所长期分层成本分摊系统的数据。 [14] 前两个问题分析了允许转运和延期交货的需求不确定的配送系统,第三个问题研究了自行车需求不确定下共享单车系统中的分配和再平衡活动,第四个问题涉及考虑工人随机性的劳动力规划决策学习曲线。 [15] 无桩共享单车系统 (DLBS) 因其环保特性而广受欢迎。 [16] 毫无疑问,自殖民定居者开始以来,关于更加合作地生活和将社会建立在共享系统而不是个人竞争中的想法一直是美国文化的一部分,并且这些想法对于改变美国具有深刻的相关性和潜在意义。 [17] 小额股权融资模式采用利润分享制,还款灵活,无需抵押。 [18] 拼车系统的出现很快就会成为现实,它将给交通带来重大变化,同时合理地提出公众接受它们的问题。 [19] 回顾在“引言”中首次提出的权力共享系统的可采用性、功能性和适应性的主题,最后一章评估了本卷中研究的案例之间的共性和差异。 [20] 在本文中,我们解决了在开发用于共享系统的自主电动滑板车时出现的自稳定、障碍物检测和避免碰撞的核心挑战。 [21] 共享单车系统是一种共享出行机制,为短途出行提供了另一种交通方式,几乎不会增加出行速度损失。 [22] 在五项偏好中,影响最大的偏好是员工提供的服务,其次是执行伊斯兰法律的强烈意愿、融资过程的速度、融资要求和适用的利润分享制度。 [23] 由于无桩共享单车系统存在肆意破坏、盗窃、违停、丢失、破产等问题,有桩共享单车的可持续发展再次受到关注。 [24] 共享单车系统通过为用户提供绿色和可持续的出行服务,为城市做出了显着贡献。 [25] 这种管理涉及四个方面,即营销理念、分工、利润分享制度,以及如何在教育、主要工作和创业烹饪业务之间分配时间。 [26] 自行车共享系统是一种越来越受欢迎的替代交通方式。 [27] 本文的目的是将农业共享系统中教育、科学和商业领域共同发展的前提条件、挑战和优势定义为农业部门物质商品、自然资源和知识产权的一般消费。 [28] 作为新一代公共自行车共享系统(PBS),Dockless PBS(DL-PBS)是信息物理系统和智能交通的重要应用。 [29] 因此,我们推荐一个集成的数据共享系统,所有利益相关者都可以共享他们的信息,而不必担心失去他们的市场份额。 [30] 共享单车系统(BSS)作为一种绿色便捷的交通工具,在世界范围内引起了广泛关注并迅速发展。 [31] 分析和讨论的结果可以建议伊斯兰银行的管理层提高伊斯兰银行的业绩,因此伊斯兰银行的管理层必须能够建立有效的资本结构,即通过使用使用有效利润的临时 syirkah 基金——与 wadiah 系统共享系统和贷款。 [32] 在典型的自行车共享系统 (BSS) 中,骑手到达车站并在有自行车的情况下使用自行车。 [33] 单向电动汽车共享系统 (OWECS) 提供环保的移动性,使用户能够在一个区域内的预选站点开始和结束他们的旅行。 [34] 城市中的大多数自行车共享系统旨在最大化需求,这种方法往往会无意中偏向富裕社区。 [35] 作为公共交通系统不可或缺的组成部分,共享单车系统(BSS)可以提高道路资源利用率,缓解交通拥堵,显着改善城市交通。 [36] 作为一种替代的、环保的交通方式,全球自行车共享系统越来越受欢迎。 [37] 单程共享汽车系统作为一种日益突出的交通工具,正面临着车辆不平衡问题的出现。 [38] 共享单车系统是一种现代化的个性化公共交通网络,人们可以通过该系统将自行车从网络中的一个自行车站租到另一个自行车站。 [39] 通过关键参数的敏感性分析发现,纯优惠的车站定价可以降低使用故障率,但电动汽车共享系统的盈利能力减弱。 [40] 继共享单车之后,共享电动自行车因其在速度、出行距离等方面的优势而越来越受欢迎。 [41] 我们开发的SIP4D(Shared Information Platform for Disaster Management)是一个跨部门合作的信息共享系统。 [42] 单向共享汽车系统由于其灵活的服务,在共享汽车领域得到了广泛的应用。 [43] 共享单车系统 (BSS) 是一种可供共享使用的公共自行车出行服务,在城市环境中变得越来越流行 [. [44] 确定对女性公平参与交通部门影响更大的因素将有助于交通规划者、共享单车系统所有者、决策者、运输公司和监管专业人员制定措施,以合理地增加女性的比例BSS 的用户、铁路公共交通和 AV 的用户,以及交通部门的员工,以实现可持续发展的社会。 [45] 在这项工作中,我们研究了出租车共享系统,这是一个最近很有前途的系统。 [46] 通过对大量公开可用数据集的数据驱动分析,我们表明我们的模型足够强大,可以捕捉出租车调度服务和拼车系统的应用。 [47] 本研究旨在寻找基于伊斯兰经济法的土地所有者和烟草种植者之间的利润分享制度,以便土地所有者和种植者可以利用它来合作种植烟草领域。 [48] UberPool、Lyft Line、GrabShare 等实时拼车系统非常受欢迎,因为它们降低了客户的成本,提高了司机的每次旅行收入,并通过将具有相似行程的客户分组来减少道路上的交通流量。 [49] 基本上,利润分享制度、费用和利润是为了架起反高利贷团体的桥梁,但不少伊斯兰银行使用法律来包装带有伊斯兰标签的产品或合同,因为在实践中它远从理论和原理。 [50]
free floating bike
Despite many qualitative discussions about the benefits of free-floating bike-sharing systems (FFBS), high-resolution and quantitative assessments about the economic benefits of FFBS for users are absent. [1] A free-floating bike sharing system is an up-and-coming and marketable solution to promote transport flexibility and health benefits, which many people regard as a realistic way of generating more environmentally-friendly trips. [2] This study investigates how the societal transition to the fourth generation of bike-sharing system, known as free-floating bike-sharing (FFBS), presents not only a technological leap but also an environmental one by fostering stronger resource conservation capabilities which can be promoted by marketers. [3] This paper introduces the problem of green bike relocation considering greenhouse gas emissions in free-floating bike-sharing systems (FFBSSs) and establishes a mathematical model of the problem. [4] A free-floating bike-sharing system (FFBSS) is a dockless rental system where an individual can borrow a bike and returns it everywhere, within the service area. [5] , GPS devices and smartphone-based APPs), a new generation of free-floating bike-sharing systems has recently become popular. [6]尽管对自由浮动自行车共享系统 (FFBS) 的好处进行了许多定性讨论,但缺乏关于 FFBS 对用户的经济效益的高分辨率和定量评估。 [1] 自由浮动自行车共享系统是一种新兴且适销对路的解决方案,可提高交通灵活性和健康效益,许多人认为这是产生更环保旅行的现实方式。 [2] nan [3] nan [4] nan [5] nan [6]
library information resource
Based on the application, service mode and main characteristics of cloud computing, this paper analyzes the new opportunities brought by cloud computing to library information resource management, constructs digital library information resource sharing system based on cloud computing technology, and establishes and realizes the operation process and mechanism of digital library information resource sharing system under cloud computing environment. [1]基于云计算的应用、服务模式和主要特点,分析了云计算给图书馆信息资源管理带来的新机遇,构建了基于云计算技术的数字图书馆信息资源共享系统,建立并实现了运行流程。云计算环境下数字图书馆信息资源共享系统及机制。 [1]