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QuasarRAT-1.3.0.0

C#遠控源代碼 * TCP network stream (IPv4 & IPv6 support) * Fast network serialization (NetSerializer) * Compressed (QuickLZ) & Encrypted (AES-128) communication * Multi-Threaded * UPnP Support * No-Ip.com Support * Visit Website (hidden & visible) * Show Messagebox * Task Manager * File Manager * Startup Manager * Remote Desktop * Remote Webcam * Remote Shell * Download & Execute * Upload & Execute * System Information * Computer Commands (Restart, Shutdown, Standby) * Keylogger (Unicode Support) * Reverse Proxy (SOCKS5) * Password Recovery (Common Browsers and FTP Clients) * Registry Editor

標簽： QuasarRAT

上傳時間： 2019-04-21

上傳用戶：netangels
基于模糊聚類分析與模型識別的微電網多目標優化方法

在微電網調度過程中綜合考慮經濟、環境、蓄電池的循環電量，建立多目標優化數學模型。針對傳統多目標粒子群算法(multi-objective particle swarm optimization，MOPSO) 的不足，提出引入模糊聚類分析的多目標粒子群算法 (multi-objective particle swarm optimization algorithm based on fuzzy clustering，FCMOPSO)，在迭代過程中引入模糊聚類分析來尋找每代的集群最優解。與 MOPSO 相比， FCMOPSO 增強了算法的穩定性與全局搜索能力，同時使優化結果中 Pareto 前沿分布更均勻。在求得 Pareto 最優解集后，再根據各目標的重要程度，用模糊模型識別從最優解集中找出不同情況下的最優方案。最后以一歐洲典型微電網為例，驗證算法的有效性和可行性。

標簽： 模糊模型識別微電網多目標優化聚類分析

上傳時間： 2019-11-11

上傳用戶：Dr.趙勁帥
怎樣限制會員登錄的次數

獲取名字判斷然后判斷他是不是三次沒成功，在用戶數據的數據庫表中，加個字段以記錄今天的失敗登陸次數目！再加個記錄臨時時間的字段~~~~~~~~！當一個用戶當天登陸第一次的時候，自動更新時間字段里的時間數據，用語句實現只更新一次，如果時間字段里的數據與服務器系統時間相同就不更新了~~~~~~！《還有就是如果不是當天時間，還要在數據庫中的記錄數目的字段把數據刷成0，是當天時間就不刷````````?。ㄒ驗檫@個時間不是今天的，就等于記錄的昨天的失敗登陸次數目）》然后用戶沒登陸失敗一次，找到自己對應的記錄數目的字段，如果不為3，就增加+1！然后頁面判斷用戶登陸頁面的時候，找到他的記錄數目的字段，判斷是不是為3！如果為3便拒絕，不為3通過驗證?。ㄟM行密碼驗證） “接到前面《》那里````````！” https://wenku.baidu.com/view/910e4614da38376bae1fae42.html?rec_flag=default 當會員登錄后記錄其登錄時間（年、月、日、時、分、秒，按你需要的精確度來定）。下次會員登錄的時候就將這個時間和他當前時間對比，如果小于24小時就提示用戶說一天只能登錄一次，然后退出，如果大于24小時，則將當前時間記錄替換原來的時間，并讓用戶登錄。步驟如下： 1、在用戶表里增加一個記錄用戶上次登錄時間的字段。 2、用戶登錄后則對當前時間與數據庫里用戶上次登錄時間進行比較。 3、對比較結果進行邏輯判斷（是否大于24小時）從而決定接下來的操作。比較結果>24小時，則讓其登錄。比較結果<24小時，則不讓其登錄。如果是等于的話就根據你自己的需要來編寫代碼了。

標簽： 怎樣限制會員登錄的次數

上傳時間： 2019-11-12

上傳用戶：aaaaaab
SmartCitiesTheInternetofThings,PeopleandSystems

The contemporary view of the Smart City is very much static and infrastructure- centric, focusing on installation and subsequent management of Edge devices and analytics of data provided by these devices. While this still allows a more efficient management of the city’s infrastructure, optimizations and savings in different do- mains, the existing architectures are currently designed as single-purpose, vertically siloed solutions. This hinders active involvement of a variety of stakeholders (e.g., citizens and businesses) who naturally form part of the city’s ecosystem and have an inherent interest in jointly coordinating and influencing city-level activities.

標簽： Internet Systems Cities People Things Smart The and of

上傳時間： 2020-05-26

上傳用戶：shancjb
Active+and+Programmable+Networks

New applications such as video conferencing, video on demand, multi- media transcoders, Voice-over-IP (VoIP), intrusion detection, distributed collaboration, and intranet security require advanced functionality from networks beyond simple forwarding congestion control techniques.

標簽： Programmable Networks Active and

上傳時間： 2020-05-26

上傳用戶：shancjb
Ambient Networks

One traditional view of how wireless networks evolve is of a continuous, inevitable progres- sion to higher link speeds, combined with greater mobility over wider areas. This standpoint certainly captures the development from first and second generation cellular systems focused on voice support, and the early short-range wireless data networks, through to today’s 3G cellular and mobile broadband systems; there is every confidence that the trend will continue some way into the future.

標簽： Networks Ambient

上傳時間： 2020-05-26

上傳用戶：shancjb
Broadband Wireless Networks

Emerging technologies such as WiFi and WiMAX are profoundly changing the landscape of wireless broadband. As we evolve into future generation wireless networks, a primary challenge is the support of high data rate, integrated multi- media type traffic over a unified platform. Due to its inherent advantages in high-speed communication, orthogonal frequency division multiplexing (OFDM) has become the modem of choice for a number of high profile wireless systems (e.g., DVB-T, WiFi, WiMAX, Ultra-wideband).

標簽： Broadband Wireless Networks

上傳時間： 2020-05-26

上傳用戶：shancjb
Coding+for+MIMO+Communication+Systems

Employing multiple transmit and receive antennas, namely using multi-input multi-output (MIMO) systems, has proven to be a major breakthrough in providing reliable wireless communication links. Since their invention in the mid-1990s, transmit diversity, achieved through space-time coding, and spatial multiplexing schemes have been the focus of much research in the area of wireless communications.

標簽： Communication Systems Coding MIMO for

上傳時間： 2020-05-26

上傳用戶：shancjb
Cognitive+Radio,+Software+Defined+Radio

Today’s wireless services have come a long way since the roll out of the conventional voice-centric cellular systems. The demand for wireless access in voice and high rate data multi-media applications has been increasing. New generation wireless communication systems are aimed at accommodating this demand through better resource management and improved transmission technologies.

標簽： Radio Cognitive Software Defined

上傳時間： 2020-05-26

上傳用戶：shancjb
Coordinated+Multi-Point

Mobile communication has gained significant importance in today’s society. As of 2010, the number of mobile phone subscribers has surpassed 5 billion [ABI10], and the global annual mobile revenue is soon expected to top $1 trillion [Inf10]. While these numbers appear promising for mobile operators at first sight, the major game-changer that has come up recently is the fact that the market is more and more driven by the demand for mobile data traffic [Cis10].

標簽： Coordinated Multi-Point

上傳時間： 2020-05-27

上傳用戶：shancjb

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