Transcript eINTERASIA

eBusiness
eBusiness Solutions
Prof. Dr.Habil. Sc.ing.
Corresponding member of Latvian Academy of Science
Leonids Novickis
Email: [email protected]
RTU, Department of Applied Computer Software Systems
e-Business Solutions
Lessons Schedule
Date
Topic
30.04
18:15-21:50
Showrooms as a platform for
demonstration of innovative EU projects
results and e-Business solutions: Virtual
Reality-based solutions, e-Logistics etc.
07.05
18:15-21:50
Introduction to e-Business solutions and Prof., Dr. Habil. Sc. ing.
their applications in several areas
L.Novickis
08.05
18:15-21:50
Share Point 2013- collaboration sites
Lecturer
Msc. Comp. A.Jurenoks
Msc. Comp. A.Lesovskis
Msc. Comp. M.Sotnichok
Msc. Comp. M.Sotnichoks
RTU, Department of Applied Computer Software Systems
e-Business Solutions
Lessons Schedule
Date
Topic
09.05
18:15-21:50
Documents sharing in Cloud. Evernoteway to remember ideas and
experiences
Msc. Comp. M. Sotņichoks
11.05
08:15-14:00
Client/ Server technologies and their
applications (sample : BONITA portal).
Survey of Web sites
(Youtube…..).Mobile solutions.
Msc. Comp. A.Jurenoks
14:30 –
16:00
Basic trends of modern e-business
software development
Lecturer
Msc. Comp. V.Kotovs
RTU, Department of Applied Computer Software Systems
e-Business Solutions
Lessons Schedule
Date
Topic
Lecturer
12.05
08:15-16:00
Basic trends of modern e-business
software
Development
14.05
18:15-21:50
Introduction to Semantic Web
technologies
Msc. Comp. A.Lesovskis
20.05
18:15-21:50
Introduction to Semantic Web
technologies
Msc. Comp. A.Lesovskis
Msc. Comp. V.Kotovs
RTU, Department of Applied Computer Software Systems
e-Business Solutions
Lessons Schedule
Date
Topic
Lecturer
21.05
18:15-21:50
e-Commerce solutions
e-Business solutions and Educational
Systems
Prof., Dr. Sc. V. Jurenoks
22.05
18:15-21:50
How Business uses Information
Systems?
Prof., Dr. Sc. V. Jurenoks
Sample of Digital Firm (demonstrator)
23.05
18:15-21:50
Security of e-business systems
As.prof.,Dr.sc. ing.
V.Šitikovs
RTU, Department of Applied Computer Software Systems
e-Business Solutions
Lessons Schedule
Date
Topic
25.05
08:15-14:00
Cloud Computing
26.05
08:15-14:00
Examination
Lecturer
Msc. Comp. Z. Bulinsh
RTU, Department of Applied Computer Software Systems
Contents
•
•
•
•
•
•
•
•
•
•
Strategic aims
Who we are?
Basic Triangle
Applied research projects: History and background
Collaborative Networing
Customisation of e-Business solutions
Sample of e-Business solutions in insurance
Introduction to e-Business
Structuring the business information
Implementation of integrated e-Business Software
RTU, Department of Applied Computer Software Systems
Strategic aims
• Introduction to applications and modern e-Business
software development methods
• Success stories in European applied research and
industrial projects
• Networking with International networks (eLogmar and
BONITA partners). Benefit from cooperation
RTU, Department of Applied Computer Software Systems
Who we are?
Computing
Technique
1973
Software
Hardware
RTU 52. Starptautiskā zinatniskā konference
Who we are?
Computer Software
System Software
Applied Software
RTU 52. Starptautiskā zinatniskā konference
Basic Triangle
Science
Teaching Process
Industrial Applications
RTU 52. Starptautiskā zinatniskā konference
History and Background
•Collaboration from 1994 to 2006 in the area of
application of simulation and innovative IT solutions in
the area of transport and logistics
•Leonardo da Vinci Programme’s projects
•BSR INTERREG Programme’s project BONITA (20082012)
•Other international projects (DeBaVAR, VR&DE)
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
Collaboration from 1994 to 2006
AMCAI
1995 - 1997
DAMAC-HP
1998 - 2000
Fraunhofer IFF GER
Magdeburg University GER
Riga Technical University LV
Latvian Intelligent Systems LV
Charles University Prague CZ
TNO Apeldoorn NL
Latvian Maritime Systems LV Baltic Container Terminal
LV
Riga Freeport Authority LV
Ventspils Freeport Auth. LV
BALVA LV
Latvian Railways LV
+
BALTPORTS-IT
2001 - 2003
+
IDC Information Techn. LV
KSSA LT
Warsaw University PL
University of Ulster UK
JSC Ventamonjaks LV
Kaunas University LT
Port of Gdansk Auth. PL
BI-Info EST
e-Transport Logistics
eLOGMAR-M
2004 - 2006
+
M & S chain Solutions UK
TREDIT GR
China Harvest Dev. CN
Beijing HOPE Software CN
Thessaloniki Port Auth. GR
Logitrans Consult EE
Hafen HH Marketing GER
SONEX LT
RTSB GmbH GER
Port of Kokkola FI
Interbalt EE
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
Leonardo da Vinci projects
LOGIS
"Long-distance tutorial network in "Logistics Information
Systems" based on WEB technologies“
LOGIS-Mobile
"Competence Framework for Mobile on-site Accelerated Vocational
Training in Logistics Information Systems“
SocSimNET
"Competence Network for Introduction of Modern ICTE
Technologies in Social Systems Simulation of Research“
Co-ordinator: Latvian Intelligent Systems
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
www.elogmar.eu
Developed by:
• RTU
• Logitrans Consult
From demonstrator to
Commercial product
Supported by:
• Fraunhofer
IFF Institute
• Beijing HOPE
Software
Company
• Shenzhen
LSCMA
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
The INTERREG 4b Project: BONITA
Baltic Organisation and Network of Innovation Transfer Associations
16 partners from 10 countries
8 universities
4 science parks
3 technology transfer organisations
1 ICT association
share best practice examples for
Scientific Transfer of Technologies
improve the role of universities for
regional transfer of research
set up a network of showrooms to
promote scientific innovation within
a region – share within the network
set up a common organisation for
sustainable operation
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
German-Baltic VAR-Network
project aims
Bundling, developing and interlinking of the competencies of the
partners
•
Development of new cooperation forms on the basis of VRTechnologies
•
Support of SME of the processing industry for the entire application
Vidzeme University
of high technologies German-Baltic Competence
Forum for Intelligent
Machines
(Finland)
Valmiera
Network for
VR/AR-supported development
of innovative products und
services
Socio-technical
engineering
VTT
Technical Research
Centre of Finland
Tampere
Customer Driven
Design
•
Virtual and Argumented Reality
FASA e.V.
SME-Networks
Riga Technical
University
Baltic Regional
Competence
Centre
(Latvia)
(Germany)
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
Baltic-Deutsches
HochschulKONTOR
PROMOTION OF VIRTUAL REALITY AND DIGITAL ENGINEERING SOLUTIONS
IN BALTIC STATES
The main aim and expected results:
•Adapt Virtual Reality and Digital Engineering solutions to the Baltic States conditions;
•Install corresponding software demonstrators at the RTU BONITA showroom;
•Organize the 3rd International Workshop on Intelligent Education Systems and
Technology-enhanced Learning mainly focused on promotion of Virtual Reality and
Digital Engineering solutions.
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
Background
1994-2006
•AM CAI
•DAMAC-HP
•BALTPORTSIT
•ELOGMAR-M
2008-2012
Technology
Transfer
ModelBONITA project
DeBaVAR
Project
(2011)
Partners from
Kazakhstan
eINTERASI
A
VR&DE
(2012)
Partners from
Uzbekistan
and Tajikistan
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
RTU 150th Anniversary
Eberhard Blümel
1953
Germany
For significant contribution of international
scientific cooperation between RTU Faculty of
Computer Science and Information
Technology and Europe’s largest applicationoriented research organization Fraunhofer
Society.
RTU Honorary doctor (2012).
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
Project partners
IST Promotion in Baltic States (2004-2007)
• France: Co-ordinator. Earth Data Network for Education and Scientific
• Estonia:
Bi-Info AS Information and Consulting Company (BI-INFO)
Inforing AS (INFORING)
• Lithuania:
Association of the Information Technology, Telecommunications and
Office Equipment Companies of Lithuania (INFOBALT)
Visoriai Information Technology Park (VITP)
• Latvia:
Riga Technical University (RTU) – Lead partner in Latvia
Latvian Information Technology and Telecommunications Association
(LITTA)
Information Day, June 12, 2009, Riga
Benefits of cooperation
under EU projects
• Modern Technologies Transfer
• Real Integration to EU Research
• Creating of partners network of cooperation in ICT area
• Establishing research and business relations with
Chinese leading companies (bilateral agreement, joint
projects)
• Invitations to join other projects
Collaborative Networking
Baltic Regional Competence Centre in IT
and e-Logistics
Riga
Tallin
Information
Dissemination Centre
(IST4 BALT)
Collaborative Networking
Beijing
–Chinese Academy of Science (HOPE company)
–Chinese Chamber of Commerce
–Chinese Software Association
–Chinese Logistics Association
–Representative office of the EC
Shanghai
–Port of Shanghai
–Shanghai Software Association
–Shanghai Logistics Association
Shenzhen
–Shezhen Logistics Association
–Shenzhen Software Association
–Najing University
Areas of Collaboration
– Promotion of
eLOGMAR-M Webportal in eLogistics
– Projects under FP7 of
the EC
– Knowledge and
experience exchange
etc.
Signing of cooperation agreement
Meeting in Chineese Embassy
The INTERREG 4b Project: BONITA
Baltic Organisation and Network of Innovation Transfer Associations
16 partners from 10 countries
8 universities
4 science parks
3 technology transfer organisations
1 ICT association
share best practice examples for
Scientific Transfer of Technologies
improve the role of universities for
regional transfer of research
set up a network of showrooms to
promote scientific innovation within
a region – share within the network
set up a common organisation for
sustainable operation
eINTERASIA – Kick-off meeting, Magdeburg, 21-22/03/2013
Mission Statement
Transnational Network (TN) is an organisational structure
that does not need legal statutes: EC does not require a
legal structure for the organisation of a network. It gathers
partner organisations, from different states and different
working areas. The activities of TN are aimed at, but are not
restricted to, the technology and innovation transfer process.
The following topics are addressed:
• Promotion and transfer of knowledge and technologies,
and experience exchange amongst TN members
• Analysis and adaptation of relevant transfer models
• Participation in selected joint ventures establishment and
development
Generic structure
Sweden
Finland
(LUT,ABI)
(Tamlink, TUT)
Russia
Denmark
(RAS)
(SDEO)
Germany
(Uni Brem/TZI)
Estonia
BONITA consortium
(company)
(TTP)
Latvia
Other
(RTU, LIKTA)
members
Poland
(FUAM)
Lithuania
(VU, VITP)
Developed by:
• RTU
• Logitrans Consult
From demonstrator to
Commercial product
Supported by:
• Fraunhofer
IFF Institute
• Beijing HOPE
Software
Company
• Shenzhen
LSCMA
Basic idea
rates, time
request
• Container cargo (20’, 40’, High-cube 40’)
• Languages: English, Russian, Chinese
Can be adapted to any other language (now
adaptation to German, Latvian and Estonian
languages is in the process)
• Basic criteria:
– Full transportation rate
– Expected transit time
Data flows
• Forwarding companies
• Road carriers
rates
• Shipping lines
• Block train operators
Interface
Forms
Excel
Files
Rates
DB
Converter
rates
Dynamics of visits detailed on regions
Northern Europe (Estonia, Latvia,UK,Denmark,
Sweden, Finland, Norway)
2%
2%
Eastern Europe (Russia, Ukraina, Belarus,
Lithuania, Slovakia, Poland, Bulgaria, Romania,
Czech Republic, Hungary)
2%
3%
3%
Eastern Asia (China, Korea)
3%
35%
6%
Western Europe ( Germany, Netherlands,
Switzerland, Austria, France, Belgium)
Southern Europe ( Spain, Greece, Italy, Bosnia,
Portugal, Slovenia, Serbia)
Central Asia ( Kazakhstan, Kyrgis Republic,
Uzbekistan)
Northern America (USA, Canada)
18%
South America ( Brazilia, Argentina, Chili, Equador)
Southern Asia ( Iran, India, Pakistan)
26%
Western Asia ( Turkey, Georgia, Azerbajdzan,
Armenia, Israel, Cyprus, Siria)
Main cooperation partners (1)
East Asia:
• Shenzhen Logistics & Supply Chain Management
Association, China (about 1000 members)
• Yang Ming (shipping line, Korea)
• Tony Glorix Co. (Korea)
• Shenzhen International Forwarding Agency (China)
• Cargorigin Logistics PvT, India (Forwarding)
Main cooperation partners (2)
Central Asia:
• Mercafor-Trans, Uzbekistan (road carrier)
• Iran Unity Shipping Co.(Iran)
• Great Silk Way (Kazakhstan)
Europe:
• Bekker Logistica (Portugal)
• Transsped AG (Switzerland)
• PROTRADEUG (Germany)
• LongTraders AS (Norway)
• InterRail Logistics GmbH (Germany)
Main cooperation partners (3)
America:
• Excelcargo S.A. (Argentina)
Australia:
• KMLT Intermodal Pty.
East Europe:
• UCS Line (Russia, St. Petersburg)
• Maxilog (Russia, Moscow)
• TIS Logistics (Russia, Novosibirsk)
• Lithuanian Railways
Service / Cooperation packages
Package
Price /
conditions
Banner placing / exchange
TBA
Placing data in the sections
•“Useful information”
•“Shipping lines services”
•“Block train services”
Description of organization, projects, sailing schedule,
timetable, etc.
TBA
Placing the tariffs in the portal DB:
•Shipping lines/ feeder companies
•Block train operators
•Intermodal transportation
TBA
Searching cargo carriers
TBA
Benefits of cooperation
• www.elogmar.eu allows to combine shipping
lines and block train operators / road carriers
transportation rates into unified start-to-finish
intermodal rate
(different combinations of transportation modes
are possible)
• To promote company using the portal
• To use a wide network of the portal partners in
business activities.
We invite you to join eLOGMAR
collaborative network!
DiasoftINSURANCE
DiasoftINSURANCE / IDC: System’s structure
Insurance Information Systems (IIS)
Development
Multi-agents models
Actuarial technologies
IIS software framework
Semantic web
Reusable software
technologies
ERDF project
Applied Software
•
•
•
•
•
1) Mathematical and Artificial Intellogence Models:
Structuring the Business information
Data Flow programming
Pattern Recognition
2) Software Engineering:
Semantic Web
Re-usable Software Engineering
Web Based and Mobile Solutions
Transporting &
Logistics
Finance Area
Digital
Engineering
Theoretical
Background
Technological
Platform
Practical
Applications (e-Business)
E-Business
 Definition 1:
E-Business is the electronic connection of
business operations to customers, suppliers,
employees and other partners. It includes, but not
limited to, product marketing, order entry, inventory
tracking, order fulfillment and after-sales support.
 Internet, email:
E-Business (electronic business) derived from such
terms as «e-mail» and «e-commerce», is the
conduct of business on the Internet.
RTU, Department of Applied Computer Software Systems
Introduction
to e-Business (1)
It is widely acknowledged today that new ICT tend to modify
communication between the different players in the professional world,
notably:
• Relationships be tween the enterprise and its clients,
• The internal functioning of the enterprise, including enterpriseemployee relationships,
• The relationships of the enterprise with its different partners and
suppliers.
The term «e-Business» therefore refers to the intergration, within the
company of tools based on information and communication
technologies (generally referred to as business software) to improve
their functioning in order to create value for the enterprise, its clients,
and its partners.
RTU, Department of Applied Computer Software Systems
Introduction
to e-Business (2)
In general one of the most important aspects of electronic business is
the complete integration of all parts of electronic business. All software
systems have to communicate and integrate with all other software
systems. There is no point in having island solutions. Pressure and
competition in the market demand a fully integrated company.
RTU, Department of Applied Computer Software Systems
Introduction
to e-Business (3)
A general idea is to use new technology to support the daily business of
a company, organisation or non-profit institute. Business is quite old
and we see common business processes in various different industries
(e.g. banking, insurance and chemical). Technology is used to empower
employees, to automate common processes, to get closer to the
customer and save costs, save expensive labour and time to market as
well as the general competition pressure of the market.
RTU, Department of Applied Computer Software Systems
Introduction
to e-Business (4)
• E-Business no longer only applies to virtual companies ( called click
and mortar) all of whose activities are based on the Internet, but also
to traditional companies (called brick and mortar).
• The term «e-Commerce» (also called Electronic commerce), which
is frequently mixed up with the terms «e-Business», only covers one
aspect of e-Business, that is the use of an electronic support for the
commercial relationship between a company and individuals («buysell BZC model»).
RTU, Department of Applied Computer Software Systems
Definition
of «Click and Mortar»
A type of business model that includes both online and
offline operations, which typically include a web sites and a
physical store
RTU, Department of Applied Computer Software Systems
Definition
of
«Brick and Mortar(B&M)»
B&M in its simplest usage is related to organisation location
in physical building.
RTU, Department of Applied Computer Software Systems
Business models
•
•
•
•
•
•
•
•
•
Business-to-business (B2B)
Business-to-consumer (B2C)
Business-to-employee (B2E)
Business-to-government (B2G)
Government-to-business (G2B)
Goverrnment-to-government (G2G)
Government-to-citizen(G2C)
Consumer-to-consumer (C2C)
Consumer-to-business (C2B)
RTU, Department of Applied Computer Software Systems
Security
E-Business systems naturally have greater security risks than
traditional business systems, therefore it is important for e-business
systems to be fully protected against these risks. A far greater number
of people have access to e-business through the internet than would
have access to a traditional business. Customers, suppliers,
employees, and numerous other people use any particular e-business
system daily and expect their confidential information to stay secure.
Some common security concerns for e-Business include keeping
business and customer information private and confidential, authenticity
of data, and data integrity. Some of the methods of protecting ebusiness security and keeping information secure include physical
security measures as well as data storage, data transmission, anti-virus
software, firewalls, and encryption to list a few.
RTU, Department of Applied Computer Software Systems
Electronic Communication
in Business
1.
2.
3.
4.
Internet, e-mail
Web
Mobile devices
Social networking media
RTU, Department of Applied Computer Software Systems
Electroni communications
are now an integal part
of business(1)
As technology progress, new communications are born and old ones- many of which seemed new so long ago--- fade away. When you’re
trying to connect with employees, colleagues, bosses, clients,
customers, suppliers or any other business contact, you may have to
more choices than you realize. Whether for interpersonal or marketing
communications, electronic media are critical to getting business done
efficiently and cost-effectively.
E-mail
One of the older forms of electronic communication remains a staple of
modern business. Because of its versatility, email can be used for
asking questions and getting answers, holding mini-group conferences,
making people aware of issues, passing along documents, sharing
information and much more. From a marketing standpoint, email has
become a popular medium for sending mesages to customers.
RTU, Department of Applied Computer Software Systems
Electroni communications
are now an integal part
of business(2)
Mobile Devices
Although communication with mobile devices may be less formal than
other forms of communication, people are increasingly turning to
messages using cell phones, personal digital assistants (PDAs) etc. As
a result, not only do business asociates communicate with one another
via mobile devices, but many companies have begun marketing to
customer through mass text messages.
SocialNetworking Media
The capability and uses of social networking media continue to evolve.
Some mailtain social networking represents a new frontie in marketing
and business networking. Companies promote events, communicate
with customers, offer discounts and draw attention to sales using social
networking media.
RTU, Department of Applied Computer Software Systems
Internet and Web
1) The Internet is a global system of interconnected
computer networks that use the standart Internet
protocol TCP/IP.
2) Web is a system of interlinked hypertext documents
accessed via the Internet.
RTU, Department of Applied Computer Software Systems
Structuring
the Business Information
• It is impossible to automate chaos!
• Customers of a project companys’s management must
be involved in the project during the whole period
• Look around and try to find already existing IT solutions
RTU, Department of Applied Computer Software Systems
Applied Software
Development Methology
GRAPES Technology
LIS Technology
Adaptive
interface
Modified LIS Technology
BSP method
LIS, Dr. E.Ginters
DB modelling
methology
Business System
Planning (BSP) Method
BSP developed by IBM is a top-down method to assist
organisations in establishing a system architectore plan.
BSP assumes that «an Information System plan for a
business must be integrated with the organisation’s
business plan and should be developed from the point of
view of top management and with their participation» (IBM
Corporation)
RTU, Department of Applied Computer Software Systems
Business processes
The BSP design techniques concentrate on the data and
treat it as a resource that must b managed in the same way
as any other resources. This produces a design that is
much more likely to satisfy the information needs of the
organisation, because an organisation’s data changes
more slowly than the processing procedures.
RTU, Department of Applied Computer Software Systems
Business processes
There are four level stages:
•
•
•
•
Identifying the business environment
Business planning
Business systems analysis
Database analysis
RTU, Department of Applied Computer Software Systems
Information Survey
of an Organisation (1)
A preliminary organisation information survey is a
necessary phase of any e-Business Software design.
One of the approaches for dealing with this problem is
based on the BSP method noted previously
RTU, Department of Applied Computer Software Systems
Information Survey
of an Organisation (2)
Business Planning is used by an organisation to direct
present and future business development.
Business Plan defines goals, objectives, resource
requirements.
If some other IS is already in use, its functions and
limitations should be identified.
RTU, Department of Applied Computer Software Systems
Business charts
Major functions are first defined when analysing the
structure of an organisation.
The processes included in each major function are then
defined, and these are broken down into sets of activities.
Through this process, the business activities can be
identified and documented.
The reults of a business systems analysis are displayed in
the form of so-called business charts.
RTU, Department of Applied Computer Software Systems
Application of BSP method
Functions
Processes
Actions
1. Preparation
of insurance
contract
1.1. Filling in the
application form.
1.1.1. Filling in the application form for a one-time
insurance policy.
1.1.2. Filling in the application form for an open (longterm) insurance policy.
1.2. Drawing up the
insurance contract.
1.2.1. Selection of the kind of transportation (ship,
railways, truck.)
1.2.2. Selection of the policy: long-term, one-time.
1.2.3. Definition of amount insured.
1.2.4..Selection of insurance conditions.
1.2.5. Selection of insurance premium.
1.2.6. Selection of document language.
1.2.7. Printing of the policy.
1.3. Drawing up the
payment documents
1.3.1. Writing up of the invoice
1.3.2. Writing up of the receipt
Example of business chart of insurance data processing
Application of BSP method
Executors
Processes
Underwrite
r
Reinsuranc
Accounting
e
Department
Department
Claims/
Damages
Department
1.1. Filling in the application
form
1.2. Drawing up the insurance
contract
1.3. Drawing up the payment
documents
2.1. Optional reinsurance
2.2. Compulsory reinsurance
3.1 Initial premium monitoring
3.2. Damages monitoring
Example of business chart of insurance data processing
Sample of implementation
of integrated e-Business
Software (1)
1. eLOGMAR
2. eLOGSERV platform based on transport portal
3. Basic principles of eLOGSERV platform
4. eLOGSERV: Integration in Internet-based Collaborative
Framework
RTU, Department of Applied Computer Software Systems
Sample of implementation
of integrated e-Business
Software (2)
5. eLOGSERV: Internet-Based Collsborative Framework
6. eTECHLOG: Strengthening SMEs technological
facilities
7. eINTERASIA
RTU, Department of Applied Computer Software Systems
eLOGMAR:
Multi-level business (1)
Transportion group (K1)
Cargo owner or their
representatives (buyer)
Craco group (K2)
DB of
alternative
solutions
Transportation
Companies
Contacts DB
Cargo owner
(seller)
DB of
transportation
Group
services
RTU, Department of Applied Computer Software Systems
eLOGMAR:
Multi-level business (2)
Cargo Group
Forwarding
Company
Deep Sea
Shipping
Port Authrities
Transportation
Group
Feeder Shipping
Lines
Port
Container
Terminals
Block Trains /
Trucks
Railway
Container
Terminals
Multi-Modal
Transportation
Operator
RTU, Department of Applied Computer Software Systems
General structure
of web portal
Users
Web-portal
Cargo group
Transportation
group
Mobile
actor
Central DB
(MySQL)
Browser only
Internet
PDA
Wi-Fi
Browser only
RTU, Department of Applied Computer Software Systems
Implementation scheme
BL
GUI
Design
Interface
forms
Algoritms
Proxy
PHP
API
Behavior
DB
GUI-Graphic Users Interface
BL-Business Logics
RTU, Department of Applied Computer Software Systems
Demonstration scenarios (1)
Unimodal transport
1.Ocean/ Feeder transportation
Port of
Departure
Ocean / Feeder
Transportation
Port as the
Point of
destination
2. Railway transportation
Point of
Departure
Railway
Transportation
Point of
destination
Road
tranportation
Point of
destination
3. Road transportation
Point of
Departure
RTU, Department of Applied Computer Software Systems
Demonstration scenarios (2)
Intermodal transport
4.Ocean/ Feeder and Railway transportation
Port of
Departure
Ocean / Feeder
Transportation
Railway
Transportation
2. Ocean/ Feeder and Road transportation
Ocean / Feeder
Road
Portt of
Transportation
tranportation
Departure
Port as the
Point of
destination
Point of
destination
RTU, Department of Applied Computer Software Systems
eLOGSERV platform
based on www.elogmar.eu
RTU, Department of Applied Computer Software Systems
Basic principles of
eLOGSERV platform
•
Scalable logistics collaboration:
The number of stages of general logistics model "buy-move-make-sell"
and correspondingly the individual structure of adapted to the specific
needs of LSPs can be dynamically extended using Web-based
coordinating mechanisms and semantic interoperable services.
•
Use of Internet-Based Collaborative Framework
incorporating advanced IT&T solutions (RFID technology, Simulation &
Visualisation, Multi-agent modelling) to support networked LSPs.
•
Dynamic adaptation of the general architecture of ICF to
the specific needs of different generations of logistics service providers:
RTU, Department of Applied Computer Software Systems
Integration in ICF is considered from two points of view:
1)
integrating of business processes (BP) of LSPs, which are
supported now by separate already operating portals :
2)
integrating of different ICT solutions:
•
Models and methods of Artificial Intelligence (distributed multiagent models, knowledge representation and processing)
•
Simulation & Visualisation, VR
•
RFID technology.
SOA, Web services, Semantic Interoperable Services, XML, Ajax as
Web development techniques, are used as technological platform for
integrating
RTU, Department of Applied Computer Software Systems
Integration in ICF
RTU, Department of Applied Computer Software Systems
eTECHNLOG project
The fundamental purpose of the project: strengthening EU SMEs
technological facilities to develop new and improved IT based services
in eLogistics. Technology Transfer Concept for exploitation and
commercialzation of research results is used.
facilitator
RTU, Department of Applied Computer Software Systems
S & T Objectives
The major purpose of eINTERASIA is to support international
cooperation with Central Asia’s countries by creating a
Technology Transfer Concept for adaptation, piloting, diffusion
and local exploitation of EU research results. The application of
TTC will be demonstrated in the field of eLogistics.
RTU, Department of Applied Computer Software Systems
General Approach
(RTD activities)
Multi-agent
distributed
model
WP3
Web-Based
Framework
WP3
Applications in
E-Logistics
Business System
Planning (business
charts, CD,…)
WP4
TTC
•Transfer model
•Showroom
•Visualization
models and tools
WP2
Assessment
Improvement
Demonstration
Promotion
Selected EU
projects
RTU, Department of Applied Computer Software Systems
WP3:
Web-Based Framework
The major objective of WP3 is to develop a demonstrator of a
Web-based framework (WBF) to support dissemination and local
exploitation of European research results in Central Asia’s
countries.
WP3 will use the outputs of WP2 and WP4.
WP2:
WP4:
Technology Transfer
Concept
Business models in
transport and logistics
WP3:
Web-based framework
RTU, Department of Applied Computer Software Systems
WBF Demonstrator
functions
Web-based framework (WBF) Demonstrator should provide
the following features and functions:
 An integrated view of the heterogeneous e-resources
(web-sites, portals, etc.) to facilitate transfer of the
research results
 Adaptation of demonstrator's general structure to the
local requirements, business models, and businessrelated applications
 Demonstration of the WBF facilities in the selected
application area - eLogistics
RTU, Department of Applied Computer Software Systems
Service-oriented
Architecture
In order to achieve these functionalities it will be necessary to expose all the eresources as services. The integration will be implemented following principles
of Service Oriented Architecture (SOA) There is a lot of standalone research
Internet portals and web-sites, which have different scientific and technological
information to provide or to handle. WBF combines those e-resources to one
portal. The benefit for the users and the providers from WBF is that they can
have the access to a source of combined information. From technological point
of view the main objection is to create the best communication between WBF
and separate web-sites/ portals. In connection with this, web services will be
used as communications- endpoints. They are adaptable to different kinds of
software technologies, like .NET, Java, PHP.
RTU, Department of Applied Computer Software Systems
Application Programming
Interface
Design (1)
RTU, Department of Applied Computer Software Systems
Application Programming
Interface
Design (2)
RTU, Department of Applied Computer Software Systems
Inter-Portlet Communication
example
RTU, Department of Applied Computer Software Systems
Next steps
8.05.2013 – Share Point 2013
9.05.2013 - Evernote
RTU, Department of Applied Computer Software Systems