Adaptive Virtual Enterprise Process Management
Perspective of Cloud-based Data Storage
Ahm Shamsuzzoha
1
, Sven Abels
2
and Petri Helo
1
1
Department of Production, University of Vaasa, PO Box 700, Vaasa, Finland
2
Ascora GmbH, Innovation & Product Development, Birkenallee 43, 27777 Ganderkesee, Germany
Keywords: Virtual Enterprise, Cloud-based Data Storage, Business Processes, Collaborative Network.
Abstract: This paper presents research outcomes on formation and operation management of virtual enterprises (VE).
A VE is considered as a temporary alliance of manufacturing companies with the objective to exploit fast-
changing business opportunities and to meet demands of globalized markets. In the operational phase of the
VE, its collaborative member companies - which are geographically distributed and organizationally
independent, cooperate with each other to execute different essential business processes. Keeping this
business objective in mind, this paper proposes an integration framework of VE, where necessary data
exchange and management among the partner companies are monitored and controlled by the help of cloud-
based data repository system. The cloud-based data storage system which provides the necessary data
storage and retrieval facilities to execute the VE processes is elaborated within this research scope. A case
example is also presented that highlights required interfacing and adaptation of the essential VE business
processes with the help from cloud-based data storage and retrieval system.
1 INTRODUCTION
In order to compete with today’s turbulent business
environment manufacturing companies, especially
small and medium enterprises (SMEs) are looking
forward to be collaborative, where the possibility of
sharing resources and expertise’s are quiet high.
This business requirement motivates companies to
form and operate a Virtual Enterprise (VE), which
enables them to fast and reliable adaptations of
business processes. Collaborative business
environment offers companies to overcome their
limited flexibility, real-time monitoring and control
over the complete supply chain in terms of buffer
level and delivery status, faster partner finding,
advanced forecasting of demand level, etc.,
(Kankaanpää et al. 2010; Carneiro et al., 2010).
VE is the concept where multiple factories form
a virtual factory and are integrated by a holistic ICT
platform, leveraging with required data transfer and
information flow among them. This collaboration
offers interoperability among the partner factories at
a deeper technical level and ensures that the
factories can be technically connected with each
other (Park and Favrel, 1999). The VE works on the
principle of plug and play, where on-the-fly
collaborative environment is established. In the plug
phase of the VE, factories provide information
which is semantically enriched descriptions of
manufacturing capabilities offered by them, which
are exposed as services (Shamsuzzoha and Helo,
2012). On the other hand, in the play phase, factories
are provided with semantically enriched descriptions
of required manufacturing capabilities and process
models as composition of services. The VE
framework provides methodologies to register new
factories in a joint registry and allows manufacturers
to find factories which meet the demands of a given
set of capabilities. This matchmaking process is
performed by comparing the semantic descriptions
and by taking into account various selection criteria
such as price, quality or speed. This approach allows
manufacturers to define a distributed manufacturing
process and to distribute the different steps of the
process to different factories.
In order to establish a successful VE,
collaborative factories need to develop a data storage
and retrieval system that control and monitor the
overall process execution. This data storage and
retrieval system needs to be efficient so that offers
enhanced agility. Today’s widely accepted cloud
services could be an answer for such purpose, where
88
Shamsuzzoha A., Abels S. and Helo P..
Adaptive Virtual Enterprise Process Management - Perspective of Cloud-based Data Storage .
DOI: 10.5220/0004394900880094
In Proceedings of the 15th International Conference on Enterprise Information Systems (ICEIS-2013), pages 88-94
ISBN: 978-989-8565-59-4
Copyright
c
2013 SCITEPRESS (Science and Technology Publications, Lda.)
factories could reduce their reliance on an internal
IT function and to make sure they get a satisfactory
level of service from cloud providers. Cloud-based
data storage refers as central data storage that allows
storing different types of data (binary, semi-
structured, semantic) and ensures high scalability for
data storage processes. It essentially provides
functionality to store different predefined and not
predefined semi-structured data like company
profiles, service descriptions, relationships,
monitoring data, processes etc., semantic data like
service descriptions and binary data like documents
or images.
2 THEORETICAL FRAMEWORK
Nowadays, growing trends within business supply
chains for the production of complex products in
collaboration with a number of autonomous
organizations. This collaboration can be in the form
of VE that provides functionality which goes
significantly beyond traditional approaches for inter-
organizational workflow management (Grefen et al.,
2009). Such collaboration contributes to added
agility, visibility and effectiveness among partner
organizations by creating and operating an
automated cooperative support for design, set up and
enactment of required business processes within the
VE (Camarinha-Matos et al., 2008; Shamsuzzoha et
al., 2010). The concept of VE is not only to
cooperate within the distributed and heterogeneous
business environment only but to ensure a proper
management of dependencies between activities
within the partners is in place (Kaihara and Fujii,
2008). Within this business environment, there
needs to store and retrieve huge amount of data
which demands for reliable and secure data storage
facility. The advancement of cloud technology can
provide such facility within the reduced budget and
expected security protocol.
The concept of cloud computing refers to the
delivery of both computing and storage capacity to a
heterogeneous community of end users. It resembles
services with a user’s data, software and
computation over a network (Marston et al., 2011).
There are three types of cloud computing are
generally available such as Infrastructure as a
Service (IaaS), Platform as a Service (PaaS) and
Software as a Service (SaaS). In the IaaS, users rent
use of servers according to needs as provided by the
cloud providers, whereas, in the PaaS, users rent use
of servers over which the software systems are
implemented. In the SaaS, the users also rent
different application software and databases
according to their needs. The cloud provider
maintains and manages the infrastructure and
platforms over which the specified applications are
run (Furht, 2010; Rimal et al., 2011; Sakr et al.,
2011).
In a collaborative business environment, cloud
services provide ample opportunity to the business
partners through managing the valuable real time
information exchange (Wang et al., 2009; Grossman
et al., 2009; Narasimhamurthy et al., 2012).
Different cloud services such as cloud computing
and data storage facility provide partners to know
the status update through process monitoring and
risk and event management. It allows partners to
concentrate on the core business aspects without
having to care about the technical management of
the cloud infrastructure and with benefiting from
elastic cloud facilities and flexible pricing models.
It also facilitates to message transfer among
various VE processes such as forecasting and
simulation, adaptation and execution, and designing
a process from a scratch by providing pre-stored
template. Information exchange among the
collaborative partners through the cloud storage
provides various supports to the VE networks such
as discovery of potential new partners, react quickly
to late changes, manage rush orders, real-time buffer
status, improve business interactions with the
customers, etc.
3 VE PROCESS MANAGEMENT
THROUGH CLOUD-BASED
DATA STORAGE
The process management is the prime task to control
and maintain the VE with its target goals. Member
companies within the VE are increasingly interested
in better organized their business processes and
optimizing them. The fundamental concern for the
partner companies is to find a way to deploy new
process management platform that lower costs with
enhanced overall process visibility. Every
collaboration network operates through the effective
implementation of a wide range of processes that
enable its members to perform their roles within the
business. The volume and complexity of these
processes grows exponentially as the business
grows. The objective to process management is to
design and efficiently organize the companies
various processes by promoting effectiveness,
improve management, reduce costs, improve quality
AdaptiveVirtualEnterpriseProcessManagement-PerspectiveofCloud-basedDataStorage
89
and customer service.
Enabling VE process management over the cloud
is a concept that organizations are embracing and
this service is growing in popularity among different
manufacturing companies that have yet to transition
IT operations over to the cloud (Mvelase et al.,
2011). In the recent years, there has been an
extended interest about cloud computing, which is
on the top of Gartner’s list of the ten most disruptive
technologies of the next years (Gartner, 2008).
Cloud computing offers the new paradigm for the
provision of computing infrastructure that reduce the
costs associated with the management of hardware
and software resources (Sakr et al., 2011). Different
cloud service providers such as Amazon, Google,
Face book and Salesforce.com, IBM, Microsoft and
Sun Microsystems have embrace this type of
infrastructure and make their applications
availability through web browser in various
locations around the world to provide redundancy
and ensure reliability in case of site failures.
Due to the requirement for providing scalable
database services many existing applications are
extended towards the cloud platform. This platform
uses cloud computing as one of the primary sources
for data storage. The data stored within the cloud in
a particular place with a specific name although that
place does not exist in reality. It is just a pseudonym
used to reference virtual space carved out of the
cloud (Wu et al., 2010).
The processes as related with the VE operation
are defined and stored within the cloud storage. All
the relevant information associated with a process
such as process template, process model, process
editor, process design, etc., is stored and retrieved
from the cloud storage as necessary. This
functionality from the cloud storage provides extra
benefits towards managing the processes from the
user side to the data management side. Typical
virtual enterprise interface between the client side
and the cloud storage side can be presented as
displayed in Fig. 1. From Fig. 1, it is seen that level
of VE interfaces starts from the user interface layer
followed by data exchange layer and process
management layer, which all access and exchange
data by using the cloud storage layer.
The user interface layer usually contains
elements such as dashboards, process designers and
management/admin components. The data exchange
layer usually contains components for message
transfer but also for message transformation, e.g.
syntactically mapping XML to JSON formats or
even by semantically mapping one XML standard to
another. Based on this, the process management
layer contains components of the VE for executing
processes and managing the information flow of the
VE. This contains components for monitoring,
forecasting and process adaptation.
Figure 1: Cloud Storage structure within VE environment.
Finally, the cloud storage layer, as displayed in
Fig. 1, may consist of different storage back ends
such as SQL for structured data or Binary back ends
for e.g. images or enterprise specific files. This
aspect will be further discussed in the following
section, introducing the concept of so called “data
buckets”.
4 CLOUD-BASED DATA
REPOSITORY
As mentioned earlier cloud-based data repository
implement as an intrinsic part of the cloud
computing, where data is stored on multiple third-
party servers, rather than traditional networked
database. The architecture of the cloud storage is
built in a way that it allows the usage of different
storage types. The reason is that VEs may need to
store different data in the cloud reaching from binary
information via structured information to semantic
information. Each of those data types is usually
stored in different systems. For example, there are
many traditional hosted or managed service
providers (MSP) offering block or file storage,
usually alongside traditional remote access protocols
or virtual or physical server hosting (Wu et al.,
2010). Additional storage technologies exist to
manage the data types such as structured data (e.g.
offered by the Google Base storage).
Since the Cloud Storage has to store data from
several components, all data will be stored in so
called “data buckets”. A bucket is a data storage
space which is fully isolated from other spaces and
ICEIS2013-15thInternationalConferenceonEnterpriseInformationSystems
90
may be used by a component to store its data. One
component may use several different data buckets
and may specify their access level (private,
publically writable, publically readable) for sharing
buckets with other components. Each bucket has a
“bucket type”, which specifies the nature of the
storage space, e.g. “binary data storage” or
“semantic data storage”.
The cloud storage is maintained dynamically,
where its storage location can be varied from time to
time. The services as cloud storage offer are
typically cheaper than dedicated physical resources
connected to a personal computer or network. It
provides data security from accidental erasure or
hardware crashes, due to it is duplicated across
multiple machines and even if one machine crashes,
the data is copied on other machines in the cloud.
Generic cloud storage repository follows the
methodology as presented in Fig. 2.
Figure 2: Methodology for a typical cloud-based data
repository.
From Fig. 2, it is noticed that cloud storage
follows the methodology data integration, data
transformation, data security and data management.
The data integration stage offers the ability to
integrate data across and outside of the enterprise, as
well as electronically connect with business partners,
whereas, in the data transformation level, the data as
exchanged between the partners are made
compatible even it was not initially. This data
transformation and data mapping solutions helps
companies to coordinate and streaming the
translation of information between systems. In the
data security stage, cloud-based data repository
offers solutions to handle business data encryption,
tokenization and key management and secure file
transfer needs. At the final stage, based on a scalable
platform data management solutions help companies
to transform master data into accurate, consistent
and relevant information.
A typical architecture for cloud-based data
repository consists of a cloud provider that works as
a master control and several implementation servers
as shown in Fig. 3. Potential customers directly
Figure 3: Typical cloud-based data repository system
architecture.
interact with the third-party cloud providers and
indirectly interact with the implementation services
as displayed in Fig. 3. Customers access to cloud to
store and retrieve required data or information
through the cloud provider instead of storing data or
information to their own hard drives or other local
storage devices. Instead of local device the data is
saved to a remote database which is connected by
Internet between the client computer and the cloud
databases through cloud provider. This approach
advocates collaborative effort to get the data from
any location that has the Internet access.
5 CASE EXAMPLE FOR A VE
NETWORK
The prime task of process management layer is to
control and maintain the activities as needed to
execute the virtual enterprise successfully. This is
done by integrating various business processes
within the VE and is applied over a web-based
platform named as ‘Liferay’ (www.liferay.com).
This platform works as a dashboard user interface,
from where users (broker and partners) can monitor
and manage the entire VE network successfully. It
provides real-time control over the collaborative
network. This communication framework is
proposed within the ADVENTURE European
Commission project (Ref: 285220) (ADVENTURE,
2011), which will be updated eventually. This
framework consists of four layers such as Process
Design, Process Management, Partner Management
and Application Management as depicted in Fig. 4.
Each of the layers of this example VE contains
different sub layers. For instance, Process Design
layer consists of Process Model Template, Process
Designer, Simulation and Optimization sub-layers,
whereas, in the Process Management layer contains
Instance Management and Alerts. The Partner
Data
Integration
Data
Transformation
DataSecurity
Data
Management
AdaptiveVirtualEnterpriseProcessManagement-PerspectiveofCloud-basedDataStorage
91
Figure 4: VE processes monitoring and management
framework.
Management layer consists of Profile Editor,
Partner Search and Partner Analysis sub-layers. Fig.
5 displays an example screen shot of Partner
Management layer and its associated sub-layers
within the VE network.
Figure 5: VE partner finding and profile management
framework.
The Application Management layer of the VE as
shown in Fig. 6 is responsible for User Management,
Dashboard Configuration, Gateway Configuration
and Alarms Configuration. All the valuable
information as necessary to execute a successful VE
framework is stored within the cloud-based data
storage system, from where; VE users/partners
would be able to retrieve necessary data/information.
The cloud-based data storage for the ADVENTURE
platform is based on highly virtualized, distributed
infrastructure and has the characteristics such as
agility, scalability, elasticity and multi-tenancy.
Figure 6: VE configuration management framework.
6 DISCUSSIONS
AND CONCLUSIONS
Collaborative operational processes are the prime
concerns in today’s business arena, where
manufacturing companies are motivated to share
resources, competences and processes in order to be
benefited mutually (Chen et al., 2010; Lee et al.,
2012). This motivation influences them to form and
operate a VE immediately after identifying any
particular business opportunity. VE achieves its
objective by defining and implementing processes
that are distributed across several organizations. This
means that the processes must be coordinated and
synchronized at a global level, where VE
implementation needs to integrate resources,
organizational models and process models of the
participating companies.
To enable partners to adapt to this new business
environment, extensive communication framework
is needed which provides necessary data exchange
and flexible integration between partners in the
value chain. Data exchange platform is considered
as the foundation for collaborative business network.
The essential data exchange and data storage facility
can be provided through the cloud infrastructure,
where the main goal is for deploying data-intensive
computing application in cloud environments. The
cloud environment provides availability, scalability,
elasticity, performance, multi-tenancy, load and
tenant balancing, fault tolerance, ability to run in a
heterogeneous environment and flexible query
interface (Sakr et al., 2011).
This cloud-based data storage system within the
cloud environment provides necessary support for
all message formats and standards, transfer protocols
and processes as needed to execute a virtual
enterprise. Various hands on knowledge and
ICEIS2013-15thInternationalConferenceonEnterpriseInformationSystems
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experience as achieved by running a VE can be
safely stored and retrieved based on their availability
and implementation perspectives. The execution of a
VE fundamentally depends on the secured database
system which can be run within the cloud
environment. This research contributed towards the
basic integration principle between different VE
processes and with the cloud-based data storage
system. This implementation process is also
highlighted by presenting a case business network,
where different collaborative VE processes are
created and managed by the cloud-based data
repository system.
ACKNOWLEDGEMENTS
The authors would like to acknowledge the co-
funding of the European Commission in NMP
priority of the Seventh RTD Framework Programme
(2007-13) for the ADVENTURE project (ADaptive
Virtual ENterprise ManufacTURing Environment),
Ref. 285220. The authors also acknowledge the
valuable collaboration provided by the project team
during the research work.
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