Advantages and Disadvantages of ERP - Enterpriese Resource Planning

Advantages of ERP Systems
There are many advantages of implementing an EPR system. Few of them are listed below:

• A perfectly integrated system chaining all the functional areas together
• The capability to streamline different organizational processes and workflows
• The ability to effortlessly communicate information across various departments.
• Improved efficiency, performance and productivity levels
• Enhanced tracking and forecasting
• Improved customer service and satisfaction

Disadvantages of ERP Systems
While advantages usually outweigh disadvantages for most organizations implementing an ERP system, here are some of the most common obstacles experienced:

• The scope of customization is limited in several circumstances
• The present business processes have to be rethought to make them synchronize with the ERP
• ERP systems can be extremely expensive to implement
• There could be lack of continuous technical support
• ERP systems may be too rigid for specific organizations that are either new or want to move in a new direction in the near future

Simple Fact: -

STD Code of Hyderabad, India is 040

Implementation of Enterprise Resource Planning

Implementing an ERP system in an organization is an extremely complex process. It takes lot of systematic planning, expert consultation and well structured approach. Due to its extensive scope it may even take years to implement in a large organization. Implementing an ERP system will eventually necessitate significant changes on staff and work processes. While it may seem practical for an in-house IT administration to head the project, it is commonly advised that special ERP implementation experts be consulted, since they are specially trained in deploying these kinds of systems.
Organizations generally use ERP vendors or consulting companies to implement their customized ERP system. There are three types of professional services that are provided when implementing an ERP system, they are Consulting, Customization and Support.

• Consulting Services - are responsible for the initial stages of ERP implementation where they help an organization go live with their new system, with product training, workflow, improve ERP's use in the specific organization, etc.
• Customization Services - work by extending the use of the new ERP system or changing its use by creating customized interfaces and/or underlying application code. While ERP systems are made for many core routines, there are still some needs that need to be built or customized for a particular organization.
• Support Services - include both support and maintenance of ERP systems. For instance, trouble shooting and assistance with ERP issues.

ERP implementation process goes through five major stages which are Structured Planning, Process Assessment, Data Compilation & Cleanup, Education & Testing and Usage & Evaluation.

• Structured Planning: is the foremost and the most crucial stage where an capable project team is selected, present business processes are studied, information flow within and outside the organization is scrutinized, vital objectives are set and a comprehensive implementation plan is formulated.
• Process Assessment: is the next important stage where the prospective software capabilities are examined, manual business processes are recognized and standard working procedures are constructed.
• Data Compilation & Cleanup: helps in identifying data which is to be converted and the new information that would be needed. The compiled data is then analyzed for accuracy and completeness, throwing away the worthless/unwanted information.
• Education & Testing: aids in proofing the system and educating the users with ERP mechanisms. The complete database is tested and verified by the project team using multiple testing methods and processes. A broad in-house training is held where all the concerned users are oriented with the functioning of the new ERP system.
• Usage & Evaluation: is the final and an ongoing stage for the ERP. The lately implemented ERP is deployed live within the organization and is regularly checked by the project team for any flaw or error detection.

Simple Fact: -

Climate is Tropical and Dry in Hyderabad, India.

ERP System Improves Productivity, Speed and Performance

Prior to evolution of the ERP model, each department in an enterprise had their own isolated software application which did not interface with any other system. Such isolated framework could not synchronize the inter-department processes and hence hampered the productivity, speed and performance of the overall organization. These led to issues such as incompatible exchange standards, lack of synchronization, incomplete understanding of the enterprise functioning, unproductive decisions and many more.
For example: The financials could not coordinate with the procurement team to plan out purchases as per the availability of money.
Hence, deploying a comprehensive ERP system across an organization leads to performance increase, workflow synchronization, standardized information exchange formats, complete overview of the enterprise functioning, global decision optimization, speed enhancement and much more.

Simple Facts: -

Altitute of Hyderabad, India is 536 Meters

Ideal ERP - Enterprise Resource Planning System

An ERP system would qualify as the best model for enterprise wide solution architecture, if it chains all the below organizational processes together with a central database repository and a fused computing platform.

• Manufacturing: - Engineering, resource & capacity planning, material planning, workflow management, shop floor management, quality control, bills of material, manufacturing process, etc.
• Financials: - Accounts payable, accounts receivable, fixed assets, general ledger, cash management, and billing (contract/service)
• Human Resources: - Recruitment, benefits, compensations, training, payroll, time and attendance, labour rules, people management
• Supply Chain Management: - Inventory management, supply chain planning, supplier scheduling, claim processing, sales order administration, procurement planning, transportation and distribution
• Projects: -Costing, billing, activity management, time and expense
• Customer Relationship Management: - Sales and marketing, service, commissions, customer contact and after sales support
• Data Warehouse: - Generally, this is an information storehouse that can be accessed by organizations, customers, suppliers and employees for their learning and orientation

Simple Facts: -

Hyderabad, India area is 217 Sq Km

Integration is Key to ERP - Enterprise Resource Planning System

Integration is an exceptionally significant ingredient to ERP systems. The integration between business processes helps develop communication and information distribution, leading to remarkable increase in productivity, speed and performance.
The key objective of an ERP system is to integrate information and processes from all functional divisions of an organization and merge it for effortless access and structured workflow. The integration is typically accomplished by constructing a single database repository that communicates with multiple software applications providing different divisions of an organization with various business statistics and information.
Although the perfect configuration would be a single ERP system for an entire organization, but many organizations usually deploy a single functional system and slowly interface it with other functional divisions.

Simple Fact: -

Hyderabad, India is also known as "City of Pearls"

What is ERP - Enterprise Resource Planning

ERP, which is an abbreviation for Enterprise Resource Planning, is principally an integration of business management practices and modern technology. Information Technology (IT) integrates with the core business processes of a corporate house to streamline and accomplish specific business objectives. Consequently, ERP is an amalgamation of three most important components; Business Management Practices, Information Technology and Specific Business Objectives.
In simpler words, an ERP is a massive software architecture that supports the streaming and distribution of geographically scattered enterprise wide information across all the functional units of a business house. It provides the business management executives with a comprehensive overview of the complete business execution which in turn influences their decisions in a productive way. At the core of ERP is a well managed centralized data repository which acquires information from and supply information into the fragmented applications operating on a universal computing platform.
Information in business organizations is accumulated on various servers across many functional units and sometimes separated by geographical boundaries. Such information islands can possibly service individual organizational units but fail to enhance enterprise wide performance, speed and competence.
The term ERP originally referred to the way a large organization planned to use its organizational wide resources. Formerly, ERP systems were used in larger and more industrial types of companies. However, the use of ERP has changed radically over a period of few years. Today the term can be applied to any type of company, operating in any kind of field and of any magnitude.
Today's ERP software architecture can possibly envelop a broad range of enterprise wide functions and integrate them into a single unified database repository. For instance, functions such as Human Resources, Supply Chain Management, Customer Relationship Management, Finance, Manufacturing Warehouse Management and Logistics were all previously stand alone software applications, generally housed with their own applications, database and network, but today, they can all work under a single umbrella - the ERP architecture.
In order for a software system to be considered ERP, it must provide a business with wide collection of functionalities supported by features like flexibility, modularity & openness, widespread, finest business processes and global focus.

Simple Facts: -

Hyderabad, Capital of Andhra Pradesh, India.

How Biometrics Work

A biometric system can operate in the following two modes:

Verification – A one to one comparison of a captured biometric with a stored template to verify that the individual is who he claims to be. Can be done in conjunction with a smart card, username or ID number.
Identification – A one to many comparison of the captured biometric against a biometric database in attempt to identify an unknown individual. The identification only succeeds in identifying the individual if the comparison of the biometric sample to a template in the database falls within a previously set threshold.

The first time an individual uses a biometric system is called an enrollment. During the enrollment, biometric information from an individual is stored. In subsequent uses, biometric information is detected and compared with the information stored at the time of enrollment. Note that it is crucial that storage and retrieval of such systems themselves be secure if the biometric system is to be robust. The first block (sensor) is the interface between the real world and the system; it has to acquire all the necessary data. Most of the times it is an image acquisition system, but it can change according to the characteristics desired. The second block performs all the necessary pre-processing: it has to remove artifacts from the sensor, to enhance the input (e.g. removing background noise), to use some kind of normalization, etc. In the third block features needed are extracted. This step is an important step as the correct features need to be extracted in the optimal way. A vector of numbers or an image with particular properties is used to create a template. A template is a synthesis of the relevant characteristics extracted from the source. Elements of the biometric measurement that are not used in the comparison algorithm are discarded in the template to reduce the filesize and to protect the identity of the enrollee.

If enrollment is being performed the template is simply stored somewhere (on a card or within a database or both). If a matching phase is being performed, the obtained template is passed to a matcher that compares it with other existing templates, estimating the distance between them using any algorithm (e.g. Hamming distance). The matching program will analyze the template with the input. This will then be output for any specified use or purpose (e.g. entrance in a restricted area).

Biometrics Basics

Biometrics comprises methods for uniquely recognizing humans based upon one or more intrinsic physical or behavioral traits. In information technology, in particular, biometrics is used as a form of identity access management and access control. It is also used to identify individuals in groups that are under surveillance.

Biometric characteristics can be divided in two main classes:
Physiological are related to the shape of the body. Examples include, but are not limited to fingerprint, face recognition, DNA, hand and palm geometry, iris recognition, which has largely replaced retina, and odor/scent.

Behavioral are related to the behavior of a person. Examples include, but are not limited to typing rhythm, gait, and voice. Some researcher have coined the term behaviometrics for this class of biometrics.

Strictly speaking, voice is also a physiological trait because every person has a different vocal tract, but voice recognition is mainly based on the study of the way a person speaks, commonly classified as behavioral.

It is possible to understand if a human characteristic can be used for biometrics in terms of the following parameters:

• Universality – each person should have the characteristic.
• Uniqueness – is how well the biometric separates individuals from another.
• Permanence – measures how well a biometric resists aging and other variance over time.
• Collectability – ease of acquisition for measurement.
• Performance – accuracy, speed, and robustness of technology used.
• Acceptability – degree of approval of a technology.
• Circumvention – ease of use of a substitute.

Biometric Technologies Available: -
· Fingerprint
· Iris
· Retina
· Palm Vein Pattern
· Hand Geometry
· Finger Geometry
· Face Recognition
· Voice Recognition

Biometric Technology Adoption Application: -

Biometric Technology Adoption in Very High Risk (Related to social safety): - Nuclear Plants, Mint Bureau, Arms and other.
Biometric Technology Adoption in High Risk Areas (Related to social trust): - Banking, Immigration, Medical Health Care etc.
Biometric Technology Adoption in Low Risk Areas: - Employee Attendance Recording, Office Area Access Control, User Tracking and observation.
Biometric Technology Adoption in Logical Access control Computer Logins, Information Access Control, protect computer network, etc.