CN103679613A - System and method for managing wood in ports on basis of radio frequency and ontology technologies - Google Patents

Abstract

The invention relates to the field of radio frequency identification and ontology technologies, and discloses a system for managing wood in ports on the basis of radio frequency and ontology technologies. The system comprises a wood radio frequency interface, a wharf operation handheld terminal, a commodity inspection operation handheld terminal, a wharf server, a commodity inspection server and a wood owner. The wharf operation handheld terminal is respectively wirelessly communicated and connected with the wood radio frequency interface and the wharf server, the wharf server is connected with the commodity inspection server by the internet, the commodity inspection operation handheld terminal is wirelessly communicated and connected with the wood radio frequency interface and the wharf server and is communicated and connected with the commodity inspection server by the wharf server and the internet, and the wood owner accesses the wharf server and the commodity inspection server via the internet. The invention further discloses a method for implementing entrance management, inspection, inventory, departure management and the like on the wood. The system and the method have the advantages that the informatization degree of management on the wood in wharfs can be effectively enhanced, and the business efficiency of wharf and commodity inspection staff can be greatly improved.

Description

Management system and the method for the harbour timber based on less radio-frequency and ontology technology

Technical field

The present invention relates to radio RF recognition technology (RFID), the technical fields such as ontology, particularly a kind of management system and method for the harbour timber based on less radio-frequency and ontology technology.

Background technology

China is maximum in the world importation of timber state, and the harbour of import mainly contains Shanghai, Zhangjiagang, Ningbo etc.Take Zhangjiagang as example, and since opening port, importation of timber total amount has surpassed 3200 ten thousand steres, and timber source has covered nearly more than 50 countries and regions, and assortment surpasses more than 500 and plants.Its business characteristic comprises: (1) import volume is large, more than inspection declaration batch; (2) area of source is wide, relates to tree assortment complicated.

Imported timber, behind port, be tested, fumigates, a series of examination and the processing such as dipping.Harbour and commodity inspection at present adopts manual work pattern to the management to port log, goods is behind port, site technology person implements check according to corresponding standard to log, then directly the information such as the diameter of log, length and numbering are write on writing brush on the section of log, relevant information is recorded on papery code list simultaneously.After site work finishes, then code is singly checked, is gathered, finally by weave code single cross to client.

The drawback that above-mentioned traditional timber management mode exists comprises:

(1) the on-the-spot data message marking on log section with writing brush, along with wind, drench with rain, Exposure to Sunlight, or can be smudgy after long-time placement, bring difficulty to sale and logistics;

(2) data message of Hand writing, lacks certain public credibility, and the timber difficulty of tracing to the source is large, and the illegal businessman malice of having an opportunity is altered data to play one's own game, thereby travelling trader's interests are encroached on;

(3) in the logistics links such as delivery, transportation, can not effectively control the security of goods, the possibility that exists carrier to stealthily substitute midway;

(4) due to the secret needs of harbour and commodity inspection data, the timber owner of cargo cannot recognize that goods is at the effective status at harbour in time.

Summary of the invention

In order to solve the problems of the technologies described above, the invention provides a kind of management system and method for the harbour timber based on less radio-frequency and ontology technology, make its more efficient harbour timber management method, promote the level of informatization in timber management process, make the efficiency of the work such as harbour, commodity inspection lifting timber approach, leave the port, make an inventory, and the timber owner of cargo can get timber in time in the status information at port.

The technical scheme that the present invention takes is:

A kind of based on less radio-frequency and ontology technology the management system to harbour timber, it is characterized in that, comprise timber wireless radio interface, dock operation handheld terminal, commodity inspection operation handheld terminal, harbour server, commodity inspection server and the timber owner of cargo, described dock operation handheld terminal is connected with harbour server radio communication with described timber wireless radio interface respectively, described harbour server is connected with described commodity inspection server by internet, described commodity inspection operation handheld terminal is connected with harbour server radio communication with described timber wireless radio interface, described commodity inspection operation handheld terminal is connected with described commodity inspection server communication by described harbour server and internet, the described timber owner of cargo is by harbour server described in described internet access and commodity inspection server.

Further, fitting-out quay database in described harbour server, commodity inspection database is installed in described commodity inspection database, described harbour database and commodity inspection database send data to integrated ontology engine by harbour database Ontology Mapping module and commodity inspection database Ontology Mapping module respectively, described integrated ontology engine will deposit timber Information Ontology storehouse in after described data integration, the described timber owner of cargo conducts interviews to described timber Information Ontology storehouse.

Further, described dock operation handheld terminal is connected with harbour database with harbour database adapter by harbour handheld terminal adapter, and described dock operation handheld terminal is sent to described harbour database by described harbour handheld terminal adapter, harbour data filtering module, harbour data deciphering module and described harbour database adapter by data successively; Described harbour database is sent to described dock operation handheld terminal by described harbour database adapter, harbour data encryption module and described harbour handheld terminal adapter by data successively.

Further, described commodity inspection operation handheld terminal is connected with commodity inspection database with commodity inspection database adapter by commodity inspection handheld terminal adapter, and described commodity inspection operation handheld terminal is sent to described commodity inspection database by described commodity inspection handheld terminal adapter, commodity inspection data filtering module, commodity inspection data deciphering module and described commodity inspection database adapter by data successively; Described commodity inspection database is sent to described commodity inspection operation handheld terminal by described commodity inspection database adapter, commodity inspection data encryption module and described commodity inspection handheld terminal adapter by data successively.

Further, described timber Information Ontology storehouse is sent to the timber owner of cargo by ontology library query engine, user authentication module and user's service module by the data of timber owner of cargo inquiry.

Further, between described ontology library query engine and described user authentication module, also through Business Rule Engine and report generation module, carry out data processing.

The management method of entering a port of harbour timber, is characterized in that, comprises the steps:

(1) timber arrives after timber harbour, to timber end face attaching rfid tag;

(2) to RFID label, write timber RFID coding;

(3) read timber RFID coding, input timber, to port information, is sent to harbour server;

(4) by the extremely stupefied position of Wood Transportation;

(5) read timber RFID coding, input stupefied position information, be sent to harbour server.

Further, described (4) before, be also included in timber end face and with writing brush, write the step of timber numbering.

A method of inspection for harbour timber, is characterized in that, comprises the steps:

(1) staff of dipping company measures timber;

(2) read timber RFID coding, to commodity inspection server, send log scaling information;

(3) commodity inspection staff quarantines to timber;

(4) read timber RFID coding, quarantine conclusion is sent to commodity inspection server;

(5) commodity inspection server judges that whether Timber Quarantine is qualified, if qualified, enters (6) step, if defective, enters (7) step;

(6) timber is submitted stifling processing to, completes check.

(7) the notice timber owner of cargo processes.

A checking method for harbour timber, is characterized in that, comprises the steps:

(1) read in batches timber RFID coding;

(2) dock operation handheld terminal statistics timber information;

(3) dock operation handheld terminal obtains timber information from harbour server;

(4) dock operation handheld terminal contrasts the timber information in on-the-spot timber information and server;

(5) judge that whether both information are consistent, in this way, the end of making an inventory; As no, notify related personnel to process.

A departure management method for harbour timber, is characterized in that, comprises the steps:

(1) timber owner of cargo access code head server;

(2) harbour server authenticates user;

(3) call Business Rule Engine judgement timber that timber the leaves the port condition of leaving the port;

(4) judge whether to allow to leave the port, in this way, enter (5) step, as no, enter (8) step;

(5) generate the timber form that leaves the port;

(6) with leave the port form delivery of cargo of timber;

(7) read timber RFID coding, verify that whether the timber information of leaving the port is consistent with the timber information of leaving the port in system, in this way, leave the port successfully; As no, enter (8) step;

(8) related personnel gets involved verification.

The invention has the beneficial effects as follows:

(1) the present invention adopts RFID technology to follow the trail of the timber in harbour, makes, in process that timber enters a port, checks and make an inventory, effectively to promote the work efficiency of harbour and commodity inspection;

(2) adopt body to carry out the timber information of harbour and commodity inspection integrated, make the timber owner of cargo can be by inquiry timber Information Ontology storehouse, obtain timber at harbour residing state;

(3) adopt timber Information Ontology storehouse, in conjunction with Business Rule Engine, to the judgement of timber state, can generate fast newspaper of Hong Kong table.On the other hand, while leaving the port, use RFID technology to verify the timber that leaves the port, thereby effectively promote the timber work efficiency of leaving the port.

Accompanying drawing explanation

Accompanying drawing 1 is that the present invention is at the deployment of timber harbour and application schematic diagram;

Accompanying drawing 2 is functional block diagram of harbour timber management software system;

Accompanying drawing 3 is bulk junction compositions of timber information integrated ontology engine 218;

Accompanying drawing 4 is schematic diagram of timber information integrated ontology engine 218 integrated timber data;

Accompanying drawing 5 is example schematic of timber information in timber Information Ontology storehouse 217;

Accompanying drawing 6 is lists of information type and the information content thereof;

Accompanying drawing 7 is the relations that exist between information type;

Accompanying drawing 8 is the present invention's courses of work when timber enters a port;

Accompanying drawing 9 is the present invention's courses of work when timber is checked;

Accompanying drawing 10 is the present invention's courses of work when timber is made an inventory

Accompanying drawing 11 is the present invention's courses of work when timber leaves the port

Accompanying drawing 12 is the schematic diagram to timber end face attaching rfid tag.

Embodiment

Below in conjunction with accompanying drawing, to the present invention is based on the management system of harbour timber and the embodiment of method of less radio-frequency and ontology technology, elaborate.

Based on less radio-frequency and ontology technology, the management system of harbour timber is comprised to timber wireless radio interface, dock operation handheld terminal, commodity inspection operation handheld terminal, harbour server, commodity inspection server and the timber owner of cargo, dock operation handheld terminal is connected with harbour server radio communication with timber wireless radio interface respectively, harbour server is connected with commodity inspection server by internet, commodity inspection operation handheld terminal is connected with harbour server radio communication with timber wireless radio interface, commodity inspection operation handheld terminal is connected with commodity inspection server communication by harbour server and internet, the timber owner of cargo is by internet access harbour server and commodity inspection server.

Wherein, fitting-out quay database in harbour server, commodity inspection database is installed in commodity inspection database, harbour database and commodity inspection database send data to integrated ontology engine by harbour database Ontology Mapping module and commodity inspection database Ontology Mapping module respectively, integrated ontology engine will deposit timber Information Ontology storehouse in after data integration, the timber owner of cargo conducts interviews to timber Information Ontology storehouse.

Dock operation handheld terminal is connected with harbour database with harbour database adapter by harbour handheld terminal adapter, and dock operation handheld terminal is sent to harbour database by harbour handheld terminal adapter, harbour data filtering module, harbour data deciphering module and harbour database adapter by data successively; Harbour database is sent to dock operation handheld terminal by harbour database adapter, harbour data encryption module and harbour handheld terminal adapter by data successively.

Commodity inspection operation handheld terminal is connected with commodity inspection database with commodity inspection database adapter by commodity inspection handheld terminal adapter, and commodity inspection operation handheld terminal is sent to commodity inspection database by commodity inspection handheld terminal adapter, commodity inspection data filtering module, commodity inspection data deciphering module and commodity inspection database adapter by data successively; Commodity inspection database is sent to commodity inspection operation handheld terminal by commodity inspection database adapter, commodity inspection data encryption module and commodity inspection handheld terminal adapter by data successively.

Timber Information Ontology storehouse is sent to the timber owner of cargo by ontology library query engine, user authentication module and user's service module by the data of timber owner of cargo inquiry.For strengthening management, between ontology library query engine and user authentication module, also through Business Rule Engine and report generation module, carry out data processing.

The management method of entering a port of harbour timber comprises the steps:

(1) timber arrives after timber harbour, to timber end face attaching rfid tag;

(2) to RFID label, write timber RFID coding;

(3) timber end face is write timber numbering with writing brush

(4) read timber RFID coding, input timber, to port information, is sent to harbour server;

(5) by the extremely stupefied position of Wood Transportation;

(6) read timber RFID coding, input stupefied position information, be sent to harbour server.

The method of inspection of harbour timber comprises the steps:

(1) staff of dipping company measures timber;

(2) read timber RFID coding, to commodity inspection server, send log scaling information;

(3) commodity inspection staff quarantines to timber;

(4) read timber RFID coding, quarantine conclusion is sent to commodity inspection server;

(5) commodity inspection server judges that whether Timber Quarantine is qualified, if qualified, enters (6) step, if defective, enters (7) step;

(6) timber is submitted stifling processing to, completes check;

(7) the notice timber owner of cargo processes.

The checking method of harbour timber comprises the steps:

(1) read in batches timber RFID coding;

(2) dock operation handheld terminal statistics timber information;

(3) dock operation handheld terminal obtains timber information from harbour server;

(4) dock operation handheld terminal contrasts the timber information in on-the-spot timber information and server;

(5) judge that whether both information are consistent, in this way, the end of making an inventory; As no, notify related personnel to process.

The departure management method of harbour timber comprises the steps:

(1) timber owner of cargo access code head server;

(2) harbour server authenticates user;

(3) call Business Rule Engine judgement timber that timber the leaves the port condition of leaving the port;

(4) judge whether to allow to leave the port, in this way, enter (5) step, as no, enter (8) step;

(5) generate the timber form that leaves the port;

(6) with leave the port form delivery of cargo of timber;

(7) read timber RFID coding, verify that whether the timber information of leaving the port is consistent with the timber information of leaving the port in system, in this way, leave the port successfully; As no, enter (8) step;

(8) related personnel gets involved verification.

Below by embodiment, the present invention is further elaborated.

As shown in Figure 1, in timber harbour place 101, latticed layout radio communication access point 102, the radio communication access point 102 of arranging is all connected with the harbour network switch 106 by the mode of wire transmission; Meanwhile, harbour server 105 is also connected to the harbour network switch 106.Harbour server 105 is uploaded, is stored, the service request such as the download of timber information, confirmation for being responsible for the timber information of dock operation handheld terminal 103.

The harbour network switch 106 is connected with harbour network router 107, meanwhile, and harbour network router 107 accessing Internets 110.The timber information service request of commodity inspection operation handheld terminal 104 is sent to commodity inspection server 108 by the harbour network switch 106, harbour network router 107, internet 110.

Dock operation handheld terminal 103 and commodity inspection operation handheld terminal 104 are furnished with RFID(Radio Frequency Identification, radio-frequency (RF) identification) module for reading and writing, can communicate by letter with ultra-high frequency RFID label 1202, to label, write, read timber RFID coding.Dock operation handheld terminal 103 is by dock work librarian use, and commodity inspection operation handheld terminal 104You Entry-Exit Inspection and Quarantine Bureau (commodity inspection) and dipping company are used.

The timber owner of cargo 109, by internet 110, harbour router one 07, the harbour network switch 106, accesses harbour server 105.The timber owner of cargo 109 can obtain the information such as the check of timber, timber, stifling, staff, stupefied position, the timber owner of cargo.In addition, by obtaining the delivery of cargo information of timber, in conjunction with above-mentioned information, generate timber delivery of cargo list, thereby simplify timber delivery of cargo process.

As shown in Figure 2, harbour server software system 201, commodity inspection server software system 202 run on respectively in harbour server 105, commodity inspection server 108.Dock operation handheld terminal 103 communicates with harbour server software system 201, and commodity inspection operation handheld terminal 104 communicates with commodity inspection server software system 202.

Harbour handheld terminal adapter 203 is for receiving the request of data of dock operation handheld terminal 103, and when needs send data to system, harbour handheld terminal adapter 203 sends data to harbour data filtering module 205; When system sends data to dock operation handheld terminal 103, harbour data encryption module 207 sends to harbour handheld terminal adapter 203 by data, further, sends data to dock operation handheld terminal 103.In addition, harbour handheld terminal adapter 203 also will carry out access authentication to the dock operation handheld terminal 103 of request, judgement commodity inspection user's legitimacy.

Harbour data filtering module 205 is carried out pre-service for the data of the dock operation handheld terminal 103 to receiving, and the data filtering of redundancy, mistake is fallen.The data of the dock operation handheld terminal 103 that 209 pairs of harbour data deciphering modules receive are decrypted, and send into subsequently harbour database adapter 211.

Harbour database adapter 211 is interfaces that harbour database 213 and other functional modules are carried out data transmission, and data are converted into harbour database 213 can store, or data are converted into the form that harbour data encryption module 207 can be encrypted.

When dock operation handheld terminal 103 obtains data from harbour server software system 201, data are taken out from harbour database 213, then via harbour database adapter 211, send into harbour data encryption module 207, after being encrypted, by harbour handheld terminal adapter 203, send to dock operation handheld terminal 103.

Corresponding, commodity inspection handheld terminal adapter 204 is for receiving the request of data of commodity inspection operation handheld terminal 104, and when needs send data to system, commodity inspection handheld terminal adapter 204 sends data to commodity inspection data filtering module 206; When system sends data to commodity inspection operation handheld terminal 104, commodity inspection data encryption module 208 sends to commodity inspection handheld terminal adapter 204 by data, further, sends data to commodity inspection operation handheld terminal 104.In addition, commodity inspection handheld terminal adapter 204 also will carry out access authentication to the commodity inspection operation handheld terminal 104 of request, judgement commodity inspection user's legitimacy.

Commodity inspection data filtering module 206 is carried out pre-service for the data of the commodity inspection operation handheld terminal 104 to receiving, and the data filtering of redundancy, mistake is fallen.The data of the commodity inspection operation handheld terminal 104 that 210 pairs of commodity inspection data deciphering modules receive are decrypted, and send into subsequently commodity inspection database adapter 212.

Commodity inspection database adapter 212 is interfaces that commodity inspection database 214 and other functional modules are carried out data transmission, and data are converted into commodity inspection database 214 can store, or data are converted into the form that commodity inspection data encryption module 208 can be encrypted.

When commodity inspection operation handheld terminal 104 obtains data from commodity inspection server software system 202, data are taken out from commodity inspection database 214, then via commodity inspection database adapter 212, send into commodity inspection data encryption module 208, after being encrypted, by commodity inspection handheld terminal adapter 204, send to commodity inspection operation handheld terminal 104.

Because harbour database 213 and commodity inspection database 214 are respectively harbour and the inner Service Database using of commodity inspection, thereby the database interface of not opening to the outside world, and harbour database 213 and commodity inspection database 214 be due to historical reasons, and its data layout is not identical yet.In order to make the timber owner of cargo 109 obtain the information of timber state from harbour database 213 and commodity inspection database 214, the present invention adopts following method.

In harbour server software system 201, by the timber owner of cargo 109 related datas of harbour database 213 and commodity inspection database 214, by harbour database Ontology Mapping module 215 and commodity inspection database Ontology Mapping module 216, data-mapping is arrived to timber information integrated ontology engine 218 respectively.Timber information integrated ontology engine 218 carries out the data that come from harbour and commodity inspection after integrated to deposit timber Information Ontology storehouse 217 in, in order to inquiry, uses.

When the timber owner of cargo 109 uses system, first access user service module 223, and this module can be the forms such as webpage, client, for the timber owner of cargo 109 provides service response interface.When user accesses, 222 couples of timber owner of cargos' 109 of user authentication module legitimacy is verified, guarantees the timber owner of cargo 109 access rights.

When the timber owner of cargo 109 carries out timber information inquiry, harbour server software system 201 is called 219 pairs of timber Information Ontology storehouses 217 of ontology library query engine and is inquired about, and the information exchange of obtaining is crossed user's service module 223 and presented to the timber owner of cargo 109.When the timber owner of cargo generates delivery of cargo list, first ontology library query engine 219 obtains relevant information from timber Information Ontology storehouse 217, and then whether the state by 220 pairs of timber of Business Rule Engine allows delivery of cargo to carry out rule judgment.In business rule judgement, judge timber state mainly comprise timber quarantine conclusion, fumigate whether finish, the key message such as timber ownership.If the state of timber allows delivery of cargo, by report generation module 221, generate delivery of cargo list, by user's service module 223, submit to the timber owner of cargo 109.

As shown in Figure 3, the bulk junction composition of timber information integrated ontology engine 218.The information type that the timber owner of cargo 109 obtains comprises timber 301, stupefied position 302, delivery of cargo information 303, the timber owner of cargo 304, staff 305, timber check 306 and stifling 307.Each information type comprises some specifying information contents, for example: inclusion information content timber RFID coding, timber numbering, timber kind and other information in information type 301.Information type and the information content thereof are as listed in Fig. 6.Between information type, there is certain relation, for example: between timber 301 and stupefied position 302, exist relation to place 308, between staff 305 and timber check 306, exist relation to test 312 etc.The relation existing between information type is as listed in Fig. 7.

As shown in Figure 4, harbour database Ontology Mapping module 215 and commodity inspection database Ontology Mapping module 216 arrive timber information integrated ontology engine 218 by data-mapping respectively.Wherein, harbour database list 401 is the database lists in harbour database 213, and commodity inspection database list 402 is the database lists in commodity inspection database 214.Data in harbour database list 401 are mapped to respectively timber 301, stupefied position 302, delivery of cargo information 303, the timber owner of cargo 304, staff's 305 the information content; Data in commodity inspection database list 402 are mapped to respectively the information content of staff 305, timber check 306, stifling 307.After data-mapping, timber information integrated ontology engine 218, according to the relation between the listed information type of Fig. 7, is stored to timber information in timber Information Ontology storehouse 217.

As shown in Figure 5, be the example of timber information in timber Information Ontology storehouse 217.Take timber 1(501) be example, its information type example is timber 1, and the information content comprising in its information type timber 301 is respectively: timber RFID coding is 20130928001, timber numbering is 0928001, the timber place of production is that South Africa Kenya, timber kind are that green handle mulberry, other information are logs.Between information type example, there is the relation between information type as listed in Fig. 7.

When inquiry is carried out in 219 pairs of timber Information Ontology storehouses of ontology library query engine 217, first adopt timber RFID coding 502 or timber numbering 503, by the mode of Data Matching, inquire the example of corresponding information type timber 301.Then, according to listing in Fig. 7, the relation existing between information type, as place 308, comprise 309 etc., can inquire the information needing.Specifically, if desired inquire about timber 1(501) the example of the stupefied position of information type 302, can place 308 by information type relation, find the stupefied position 10012130(504 of its correspondence), thus obtain its information content.

As shown in Figure 8, the course of work of the present invention when timber enters a port is:

S0801: timber 1201 arrives harbours, the timber course of work of entering a port starts;

S0802: to timber 1201 end face attaching rfid tags 1202, as shown in figure 12;

S0803: use dock operation handheld terminal 103 to write timber RFID coding to RFID label 1202, this coding is unique have been determined and in the follow-up course of work, all will use concrete timber 1201 timber RFID and encode;

S0804: for compatible with existing harbour timber management system.In addition, for when RFID label 1202 damages, can determine the information of timber 1201, on the end face of timber 1201, with writing brush, write timber numbering;

S0805: the timber RFID coding in the RFID label 1202 that use dock operation handheld terminal 103 reads on timber 1201, the information such as the timber numbering while inputting timber to port in dock operation handheld terminal 103, the timber place of production, timber kind, are then sent to harbour server 105;

S0806: adopt flat-bed trailer by the extremely stupefied position of Wood Transportation;

S0807: the timber RFID coding in the RFID label 1202 that use dock operation handheld terminal 103 reads on timber 1201, in dock operation handheld terminal 103, input the information such as stupefied bit number, stupefied position title, affiliated area, be then sent to harbour server 105;

S0808: timber 1201 enters a port work successfully.

As shown in Figure 9, the course of work of the present invention when timber is checked is:

S0901: the stupefied position of timber 1201 is arrived at by commodity inspection, dipping company, starts timber check;

S0902: the staff of dipping company measures data such as the diameter of timber 1201, length;

S0903: the staff of dipping company uses commodity inspection operation handheld terminal 104 to read timber RFID in RFID label 1202 coding inputs the dipping data such as diameter, length of timber in commodity inspection operation handheld terminal 104, is then sent to commodity inspection server 108;

S0904: commodity inspection staff quarantines to timber 1201;

S0905: commodity inspection staff uses commodity inspection operation handheld terminal 104 to read the timber RFID coding in RFID label 1202, and input quarantine conclusion, is then sent to commodity inspection server 108 in commodity inspection operation handheld terminal 104;

S0906: if timber 1201 quarantines are qualified, proceed to S0907, otherwise, proceed to S0908;

S0907: timber 1201 is submitted stifling processing to;

S0908: the notice timber owner of cargo 109, the problem existing in timber 1201 quarantines, implements further to process;

S0909: timber test ending.

As shown in figure 10, the course of work of the present invention when timber is made an inventory is:

S1001: dock work personnel arrive at the stupefied district of timber, the timber beginning of making an inventory;

S1002: in the stupefied district of timber, dock work librarian use dock operation handheld terminal 103 reads the timber RFID coding in the timber RFID label in all stupefied districts in batches;

S1003: the timber RFID coding that dock operation handheld terminal 103 statistics read, and timber sum in zoning;

S1004: dock operation handheld terminal 103 obtains the information such as timber RFID in stupefied district coding, sum from harbour server 105;

S1005: the timber information of obtaining in the timber information of 103 pairs of field statistics of dock operation handheld terminal and harbour server 105 contrasts;

S1006: if the timber information contrasting in S1005 is consistent, enter S1008, otherwise, enter S1007;

S1007: the relevant timber management responsibility personnel of notice, manually make an inventory, check;

S1008: the timber end of making an inventory.

As shown in figure 11, the course of work of the present invention when timber leaves the port is:

S1101: the timber owner of cargo 109 sends delivery of cargo request to harbour, and harbour deposits bill of lading in harbour database 213, and timber 1201 starts the course of work of leaving the port;

S1102: the timber owner of cargo 109 access harbour server software systems 201, user's service module 223 provides service to the timber owner of cargo 109;

S1103: harbour server software system 201 adopts 222 couples of timber owners of cargo of user authentication module 109 to carry out authentication;

S1104: the timber owner of cargo 109 carries out the timber operation of leaving the port, and harbour server software system 201 is called ontology library query engine 219 and Business Rule Engine 220, is judged by 220 pairs of timber conditions of leaving the port of Business Rule Engine;

S1105: if timber allows to leave the port, go to S1105, otherwise, go to S1110;

S1106: report generation module 221 generates timber delivery of cargo form, submits to the timber owner of cargo 109 by user's service module 223;

S1107: related personnel picks up goods with timber form to the harbour that leaves the port, and picks out the timber that leaves the port from timber storage yard;

S1108: dock work librarian use dock operation handheld terminal 103 reads the coding of the timber RFID in RFID label 1202 on timber 1201 end faces, use dock operation handheld terminal 103 inquiry harbour databases 213, verify that whether current timber is consistent with timber to be left the port in system;

S1109: if the timber that leaves the port is consistent, go to S1111, otherwise, go to S1110;

S1110: timber leaves the port in process and encounters problems, and related personnel gets involved verification;

S1111: the timber course of work of leaving the port is complete, and timber leaves the port successfully;

S1112: timber has left the port, timber leaves the port unsuccessfully.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (11)

1. One kind based on less radio-frequency and ontology technology the management system to harbour timber, it is characterized in that: comprise timber wireless radio interface, dock operation handheld terminal, commodity inspection operation handheld terminal, harbour server, commodity inspection server and the timber owner of cargo, described dock operation handheld terminal is connected with harbour server radio communication with described timber wireless radio interface respectively, described harbour server is connected with described commodity inspection server by internet, described commodity inspection operation handheld terminal is connected with harbour server radio communication with described timber wireless radio interface, described commodity inspection operation handheld terminal is connected with described commodity inspection server communication by described harbour server and internet, the described timber owner of cargo is by harbour server described in described internet access and commodity inspection server.
2. According to claim 1 based on less radio-frequency and ontology technology the management system to harbour timber, it is characterized in that: fitting-out quay database in described harbour server, commodity inspection database is installed in described commodity inspection database, described harbour database and commodity inspection database send data to integrated ontology engine by harbour database Ontology Mapping module and commodity inspection database Ontology Mapping module respectively, described integrated ontology engine will deposit timber Information Ontology storehouse in after described data integration, the described timber owner of cargo conducts interviews to described timber Information Ontology storehouse.
3. According to claim 1 based on less radio-frequency and ontology technology the management system to harbour timber, it is characterized in that: described dock operation handheld terminal is connected with harbour database with harbour database adapter by harbour handheld terminal adapter, described dock operation handheld terminal is sent to described harbour database by described harbour handheld terminal adapter, harbour data filtering module, harbour data deciphering module and described harbour database adapter by data successively; Described harbour database is sent to described dock operation handheld terminal by described harbour database adapter, harbour data encryption module and described harbour handheld terminal adapter by data successively.
4. According to claim 1 based on less radio-frequency and ontology technology the management system to harbour timber, it is characterized in that: described commodity inspection operation handheld terminal is connected with commodity inspection database with commodity inspection database adapter by commodity inspection handheld terminal adapter, described commodity inspection operation handheld terminal is sent to described commodity inspection database by described commodity inspection handheld terminal adapter, commodity inspection data filtering module, commodity inspection data deciphering module and described commodity inspection database adapter by data successively; Described commodity inspection database is sent to described commodity inspection operation handheld terminal by described commodity inspection database adapter, commodity inspection data encryption module and described commodity inspection handheld terminal adapter by data successively.
5. According to claim 2 based on less radio-frequency and ontology technology the management system to harbour timber, it is characterized in that: described timber Information Ontology storehouse is sent to the timber owner of cargo by ontology library query engine, user authentication module and user's service module by the data of timber owner of cargo inquiry.
6. According to claim 5 based on less radio-frequency and ontology technology the management system to harbour timber, it is characterized in that: between described ontology library query engine and described user authentication module, also through Business Rule Engine and report generation module, carry out data processing.
7. 7. the management method of entering a port of harbour timber, is characterized in that: comprise the steps:

   (1) timber arrives after timber harbour, to timber end face attaching rfid tag;

   (2) to RFID label, write timber RFID coding;

   (3) read timber RFID coding, input timber, to port information, is sent to harbour server;

   (4) by the extremely stupefied position of Wood Transportation;

   (5) read timber RFID coding, input stupefied position information, be sent to harbour server.
8. 8. the management method of entering a port of harbour according to claim 7 timber, is characterized in that: described (4) before, be also included in timber end face and with writing brush, write the step of timber numbering.
9. 9. a method of inspection for harbour timber, is characterized in that: comprise the steps:

   (1) staff of dipping company measures timber;

   (2) read timber RFID coding, to commodity inspection server, send log scaling information;

   (3) commodity inspection staff quarantines to timber;

   (4) read timber RFID coding, quarantine conclusion is sent to commodity inspection server;

   (5) commodity inspection server judges that whether Timber Quarantine is qualified, if qualified, enters (6) step, if defective, enters (7) step;

   (6) timber is submitted stifling processing to, completes check;

   (7) the notice timber owner of cargo processes.
10. 10. a checking method for harbour timber, is characterized in that: comprise the steps:

    (1) read in batches timber RFID coding;

    (2) dock operation handheld terminal statistics timber information;

    (3) dock operation handheld terminal obtains timber information from harbour server;

    (4) dock operation handheld terminal contrasts the timber information in on-the-spot timber information and server;

    (5) judge that whether both information are consistent, in this way, the end of making an inventory; As no, notify related personnel to process.
11. The departure management method of 11. 1 kinds of harbour timber, is characterized in that: comprise the steps:

    (1) timber owner of cargo access code head server;

    (2) harbour server authenticates user;

    (3) call Business Rule Engine judgement timber that timber the leaves the port condition of leaving the port;

    (4) judge whether to allow to leave the port, in this way, enter (5) step, as no, enter (8) step;

    (5) generate the timber form that leaves the port;

    (6) with leave the port form delivery of cargo of timber;

    (7) read timber RFID coding, verify that whether the timber information of leaving the port is consistent with the timber information of leaving the port in system, in this way, leave the port successfully; As no, enter (8) step;

    (8) related personnel gets involved verification.

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