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Distributed Data Mining System in Java

Distributed Data Mining System in Java. Group Member 王春笙,林俊甫,王慧芬. Overview of Project. Project participants 王春笙, 林俊甫,王慧芬. Project Programming Tasks. D92725002 林俊甫 Polling and reply Multicast between client and server Client/Server Socket programming

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Distributed Data Mining System in Java

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  1. Distributed Data Mining System in Java Group Member 王春笙,林俊甫,王慧芬

  2. Overview of Project • Project participants • 王春笙,林俊甫,王慧芬

  3. Project Programming Tasks • D92725002 林俊甫 • Polling and reply Multicast between client and server • Client/Server Socket programming • Client dynamic join and leave mechanism • Multi-thread programming • Synchronization mechanism • Data chunks maintenance and dispatching mechanism • Client/Server communication link control

  4. Project Programming Tasks(cont’d) • Client failure handling • Reassign backup server, if failure client is backup • Restore failure client works (with 王春笙) • Server failure handling • Backup Server designate mechanism and logic design • RMI mechanism (with 王春笙) • Basic GUI

  5. System Infrastructure • System diagram Client Client Client ... LAN Mining data chunk Mining result Server/Coordinator

  6. Basic Operation Time Time Client 1. Polling on port 4444 Group 230.0.0.1@: who is server? Server Listen multicast Group query and reply Server found; Connect to the Server 2. Servername: I am the server Fork thread to Handle client connection 3. Connect to <servername, port 4445> Receive server’s Instruction, ivoke RMI to get file chunk 4. Client do: filechunk# Wait for client’s Processed result, Order client to get Another file chunk 5. ok 6. Client do: next filechunk# 7….. 8….. ….

  7. Port Assignment • Port 4444: for multicast • Port 4445: for TCP/IP socket connection • Port 4446: for RMI services

  8. Finding A Server • Once a client start up, it will query periodically every 3 sec. over the multicast group 230.0.0.1 port 4444 by sending 1 byte string “@” to locating the server host. • Once a server start up, it will fork a thread to dealing with the query

  9. File Dispatching • Server maintain a file chunk pool . • Server will find a available file chunk for client, set it to 1 and order client to get this file chunk by RMI file chunk will be update to 2 when client return result. • Recovery: When server detects client’s link-broken, it will restore file chunk allocate to client to 0. • File chunk class is declared as Serializable for RMI message passing to backup server • File chunk class use Synchronization for concurrent control FileChunks ………… -1: empty, 0: available, 1: using, 2:used

  10. Backup Server Selection • Server maintains and assigns unique id for each individual client. • Unique id is incremented as serial number. • Client with smallest id is assigned as backup server • When client failure, server will check if it is the backup server to restart the selection process or not.

  11. Nodes Maintenance • Server maintain connected client’s records in an ArrayList • ArrayList is compound with class Nodes, which records client’s detail information. Key Value ArrayList: ht Id Address Port Work on Status Nodes

  12. RMI Services • RMI services is written in independent program because server and client (which acts as backup server) will use it. • RMI services provides: • Backup server data to backup-server. • Get file chunk from server • Return mining result to server • Receive nodes information from server

  13. Client Failure • Server’s action took: • Recovery • Reassignment • Redo backup server selection if failure nodes is backup • Client’s action • Do nothing except one is told by server to act as backup

  14. Server Failure Client A Time Server S Time Client B Time 1.A is told by S that It is the backupA invoke RMI to get all Server data A: Do backup Server run backup Selection choose A As backup 1. B receives instruction as discuss before RMI Get file Client do # RMI reply 2. A periodically Get server services, File chunk data Client do # do reply do reply 2. Comm.Link Broken is detected, multicast query who is the server now? 3. Comm.link broken Is detected, start ServerAction class X X Server Crash 4. Create server Socket at 4445, fork thread To listen to query And wait for connection B Polling @: who is server? 3. B know A is the backup, re-connect to A A reply: I am the server Connect to A:4445

  15. Server/Client Life Cycle Server Client evolve Server Normal/Abnormal Termination Normal/Abnormal Termination

  16. Project Programming Tasks • D91725001 王春笙 • Web log file preprocessing and separating • Web pages traversal sequences parsing • Page items transferring and mapping • Web pages sequential patterns mining • Mining results maintenance • RMI mining results transfer • Mining results lookup and display

  17. Project Programming Tasks(cont’d) • Backup mechanism • Separate thread backup server files and memory data • Restore failure client works (with 林俊甫) • RMI mechanism (with 林俊甫) • GUI global states refreshment • System integration • Testing and debugging

  18. Web Log File Format • User IP • Date • Time • Web pages URL

  19. Web File Preprocessing • Select *.htm and *.html pages • First sort by user ID • Second sort by time • Pages sequences separated by time • more than 30 seconds

  20. Chunk Data Files • Part*.ppp • Items.ppp 6023 2 1 1 2 8 6024 1 1 206 6025 7 1 1 1 1 1 1 1 2 5 17 18 19 20 11 6026 3 1 1 1 144 145 338 6027 2 1 1 2 9 6028 3 1 1 1 2 8 3 /~visualdep/htm/p5b.htm 168 /~businessdep/student/picture.html 169 /~comedu/inde.htm 170 /~account/91tuition.htm 171 /~stuaffair/life/procedure-17.htm 172 /~stuaffair/life/procedure-25.htm 173

  21. Apriori algorithm • 1:find all L1 • 2:generate C2 from L1 • 3:count C2 and find all L2 • 4:k=3 • 5:generate & prune Ck from Lk-1 • 6:count Ck and find all Lk • 7:if Lk not empty then k++, goto 5

  22. Apriori algorithm (cont’d) • join phase:s1 join s2 if s1(drop first) = s2(drop last) • s1 join s2 => • prune phase:delete a k candidate if any k-1 sub sequence not large • C & L are stored in hash data structure

  23. Mining Result Display • Client frequent patterns • Web page ID • Support • Saved as *.pppl files • Client frequent patterns • Web page ID • Support • Web page name

  24. Backup Mechanism • When backup server selected, that client start a backup thread • Backup thread loop every 0.5 second • RMI data transfer • Chunk data file(part*.ppp,items.ppp) • Client information • File chunk information • determine MaxID and set “in use” to “available” • Frequent patterns information

  25. System Integration • Java class integration • Server component • Client component • Data mining component • GUI component • Testing • Debugging

  26. Project Programming Tasks • D92725001 王慧芬 • Graphical User Interface • Since this is a system working on data mining task in a distributed way, its GUI provides four panels: • A system console • A result window • A connection table • A graphical network configuration

  27. GUI • The system console shows how system proceeds

  28. GUI (cont’d) • The result window displays the progress and results of data mining

  29. GUI (cont’d) • A connection table lists all of the on-line client connection information

  30. GUI (cont’d) • A connection table consists of 5 fields • NO:client-server connection id • IP address:client’s IP address • Port:client’s port number • Status:connection status, it could be • 0: offline 1: online • 2: file transfer from server to client • 3: client is doing data mining • 4: client returns value back to server if data mining finished • 5: client is doing the backup and data mining at the same time • # chunk works on:if data mining and backup, it indicates the chuck number that the connection works on

  31. GUI (cont’d) • A graphical network configuration follows the connection table to depict the dynamic network configuration

  32. GUI (cont’d) • In the dynamic network configuration, we use different client GIFs to express the status: • Offline On-line • Data mining • Backup and mining

  33. GUI interface • mw.showMsg() • provided by GUI for server/client module to show the console message • mw.showResultString() • provided by GUI for server/client module to show the results of data mining • Connection table • modified by server/client module for connection information • read by GUI every 0.01 second to depict the dynamic network configuration

  34. GUI design • Java swing is used to generate label, text, scrollbar, and table, etc.. • Java AWT 2D painting is used to form the animation of the connection lines in the dynamic configuration panel • ‘Photo Impact’ and ‘GIF animator’ are used to generate the node icons • EasyRGB used to tune the color harmonies.

  35. GUI design (cont’d) • A new thread is forked from the GUI task to work on the animation of the connection lines in the dynamic configuration panel, • to read the table every 0.03 second and to show the connection status with a moving ball.

  36. Installation • 以執行一個 server,兩個client為例 • 建立三個資料夾,此三資料夾Ser(Server),Cli(Client1),Cli2(Client 2) • 將附檔解壓至Ser資料夾,此資料夾內要下載weblog10.zip檔,並解壓 • 將附檔解壓至 Cli 與Cli2的空資料夾 • 開啟二個dos視窗(1,2號視窗),進入Ser資料夾 • 開啟三個dos視窗(3,4,5號視窗),3,4號進入Cli資料夾,5號進入Cli2資料夾 • 1號視窗執行 compile.bat 批次檔,再執行 rmi.bat • 2號視窗執行 server.bat 批次檔 • 3號視窗執行 compile.bat 批次檔,再執行 rmi.bat • 4號視窗執行 client.bat批次檔 • 5號視窗執行 compile.bat批次檔,再執行 client.bat批次檔

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