PROJECT PLANNING

 PROJECT PLANNING

Effective management of projects is key to the progress of an economy because development itself is the outcome of a series successfully managed projects.  To avoid project schedule slippages and cost overruns, a project needs to be meticulously planned, effectively implemented and professionally managed in order to accomplish the objectives of time, cost and performance. 

The term ‘project’ has a wider meaning to include a set of activities. For example, construction of a house is a project. It includes many activities like digging of foundation pits, construction of foundations, construction of walls, construction of roof, fixing of doors and windows, fixing of sanitary fitting, wiring etc. Further, project is the non-routine nature of activities.

In fact, a project is an organized programme of pre-determined group of activities that are non-routine in nature and that must be completed within the given time limit. It is a non-routine, non-repetitive, one-off undertaking, normally with discrete time, financial and technical performance goals.

The distinguishing features of a project are :

Purpose: A project is usually a one-time activity with a well-defined set of desired end results. It can be divided into subtasks that must be accomplished in order to achieve the project goals. The project is complex enough that the subtasks require careful coordination and control in terms of timing, precedence, cost, and performance. The project itself must often be coordinated with other projects being carried out by the same parent organization.

Life Cycle : Like organic entites, projects have a life cycle. From a slow beginning they progress to a buildup of size, then peak, begin a decline, and finally must be terminated. (Also like other organic entities, they often resist termination.) Some projects end by being phased into the normal, ongoing operations of the parent organization.

Single Entity : A project is one entity and is normally entrusted in one responsibility centre while the participants in the project are many. Interdependencies : Projects often interact with other projects carried out simultaneously by their parent organization; but projects always interact with the parent’s standard, ongoing operations. While the functional departments of an organization (marketing, finance, manufacturing, and the like) interact with one another in regular, patterned ways, the patterns of interaction between projects and these departments tend to be changing. Marketing may be involved at the beginning and end of a project, but not in the middle. Manufacturing may have major involvement throughout. Finance is often involved at the beginning and accounting (the controller) at the end, as well as at periodic reporting times. The project manager must keep all these interactions clear and maintain the appropriate interrelationships with all external groups.

Uniqueness : Every project has some elements that are unique. No two construction or R&D projects are precisely alike. Though it is clear that construction projects are usually more routine than research and development projects, some degree of customization is a distinct feature of a project. In addition to the presence of risk, as noted above, a project may be unique in nature, which can not be completely reduced to routine. The project manager’s importance is emphasized because, as a devotee of management by exception, the manager will find there are a great many exceptions to manage by.

Complexity : A rich project represents a complex set of activities pertaining to diverse areas. Technology survey, choice of the appropriate technology, procuring the appropriate machinery and equipment, hiring the right kind of people, arranging the financial resources, execution of the projects in time by proper scheduling of various activities contribute to the complexity of the project.

Team Work : Successful completion of a project calls for teamwork. The team is constituted of members who are specialists in relevant fields.

Risk and Uncertainty : Risk and uncertainty are inherent in every project. However, degree of risk and uncertainty will depend on how a project passes through its various life cycle phases.

Customer Specific : A project has always to be customer specific so as to cater to the needs of customers. As such, the organization should go for projects that are suited to customers.

CLASSIFICATION OF PROJECTS

 Projects can be categorized according to type of activity, location, time, ownership, size and need.

According to Type of Activity : Under this category, projects can be classified as industrial and non-industrial projects Industrial projects are set up for the production of some goods. Non-Industrial projects comprise health care projects, educational projects, irrigation projects, soil conservation projects, highway projects etc.

According to Location : Location wise, projects can be categorized as national and international projects. National projects are those set up in the national boundaries of a country, while international projects are set up by the government of private sector across the globe.

According to Completion Time : Projects under this category can be divided into two types, viz; normal and crash projects. In case of normal projects there is no time constraint. Crash projects are those which are to be completed within a stipulated time, even at the cost of ending up with a higher project cost.

According to Ownership : Projects under this category can be grouped into public, private and joint sector projects. Public sector projects are owned by the Government. In private sector projects ownership is in the hands of the project promoters and investors. Joint sector projects are those in which ownership is shared by the Government and private entrepreneurs.

According to Size : Based on size, there may be three categories of projects, viz; small, medium and large. As per the present guideline of the Government, projects with investment on plant and machinery upto Rs. 1 crore are classified as small and those with investment in plant and machinery above Rs. 100 crores are categorized as large scale projects. Those with investment limit between these groups are medium scale projects.

 According to Need : Based on the need for the project, projects can be classified as new balancing, expansion, modernization, replacement, diversification, backward integration and forward integration projects.

THE PROJECT LIFE CYCLE

Performance, time, and cost goals remain constant throughout the project's life cycle and are the main factors to be taken into account. Performance is prioritized in the early stages of the life cycle. The team members concentrate on how to meet the performance objectives of the project. We refer to the precise strategies used to achieve these objectives as the project's technology because they call for the use of a science or an art.

When the major "how" issues are resolved, project staff can get preoccupied with performance improvement, frequently going above and beyond what was called for in the initial specifications. The timeline is pushed back and the prices are raised as a result of this search for more performance.

A growing preoccupation with cost containment is a hallmark of the middle stages of the life cycle. The emphasis of attention shifts to time during the last phases of the life cycle. As projects near completion, there is typically more cost flexibility and efforts are focused on keeping everything as close to the agreed timeline as feasible, even if doing so results in cost penalties.

If one could forecast with certainty at the beginning of a situation, it would be a wonderful source of comfort.

PROJECT MANAGEMENT

Project management is the process of identifying project possibilities, creating profitable project profiles, obtaining funding for project implementation, planning project activities to be completed with the least amount of effort and expense, and monitoring the project once it has been completed.

Project management has to define what needs to be done and make sure it is done and performed as requested within the time and cost budgets set for it utilising a modular work strategy and resources from within and outside the company.

PLANNING PROJECT WORK

Six different planning sequences are represented by project planning. The first step is preliminary coordination, during which the various project participants gather and make early decisions about what will be accomplished (the project's objectives) and by whom. These preliminary plans form the framework for a thorough explanation of the numerous tasks that must be carried out and completed in order to meet the project's goals. Additionally, the participants become more committed to the project just by participating in the preliminary planning phase.

These work plans are utilized to determine the project budget and schedule for the third and fourth sequences. The project work plan, which includes a detailed description of the project's tasks, and the timeline both directly reflect the level of information (or lack thereof) in the plan. The fifth planning sequence provides detailed information on all project status reports, including when they must be produced, what they must include, and who will receive them. Final step: Project termination plans that outline how the project's components will be transferred after its intended purpose has been achieved must be prepared.

But before we get started, we make the assumption that planning's main goal is to make its objectives easier to achieve. There are many plans in the world that are never carried out. The planning strategies discussed here are meant to make the transition from idea to completion easier. Plans serve as a road map for the difficult process of managing a project. The map must be basic enough for workers to understand yet detailed enough to know what has to be done next.

Initial Project Coordination

The project's goals must be explicitly linked to the company's broader vision and mission. Senior management should identify the project's scope, discuss its goals, and explain why the company decided to take on the project. Project planning is prone to error without a defined start. As a clear indication of high management's commitment to the initiative, a senior manager must convene the first coordinating meeting and be present.

Potential participants are given enough information about the project at the meeting to have a basic idea of what is required. The meeting will be brief and routine if the project is one of many such projects, more of a "touching base"with other interested units. If the project is unique in most of its aspects, extensive discussion may be required.

No matter how the process is carried out, the following outcomes are required: (1) technical objectives must be established (though they may not be "cast in concrete"), (2) the participants must accept the fundamental performance responsibility areas, and (3) some tentative schedules and budgets must be specified. Each person or unit taking on responsibility for a particular aspect of the project should undertake to present, by the following project meeting, a rough but comprehensive plan outlining how that obligation will be carried out. Such plans ought to include timelines, budgets, and descriptions of the necessary tasks.

Following group evaluation, a composite project plan is created from these individual plans. Each participating group, the project manager, and finally senior organisational management all provide their approval to the composite plan, which is still not quite finalised. Once senior management has approved the plan, any further changes must be made by processing a formal change order. Each subsequent approval "hardens" the plan somewhat. However, informal written notes can take the place of the modification order if the project is not very vast or complicated. The key issue is that when high management has given its blessing, no important project adjustments are made without written notice. Depending on the details and parties involved, "significant" might mean different things in different contexts.

Project Plan Elements

Given the project plan, approvals really amount to a series of authorizations. The project manager is authorized to direct activities, spend monies (usually within preset limits), request resources and personnel, and start the project on its way to completion. Senior management’s approval not only signals its willingness to fund and support the project, it also notifies sub-units in the organization that they may commit resources to the project.

The process of developing the project plan varies from organization to organization, but any project plan must contain the following elements:

Overview: This is a short summary of the objectives and scope of the project. It is directed to top management and contains a statement of the goals of the project, a brief explanation of their relationship to the firm’s objectives, a description of the managerial structure that will be used for the project, and a list of the major milestones in the project schedule.

Objectives: This contains a more detailed statement of the general goals noted in the overview section. The statement should include profit and competitive aims as well as technical goals.

General Approach: This section describes both the managerial and the technical approaches to the work. The technical discussion describes the relationship of the project to available technologies. For example, it might note that this project is an extension of work done by the company for an earlier project. The subsection on the managerial approach takes note of any deviation from routine procedure, for instance, the use of subcontractors for some parts of the work.

Contractual Aspects: This critical section of the plan includes a complete list and description of all reporting requirements, customer-supplied resources, liaison arrangements, advisory committees project review and cancellation procedures, proprietary requirements, any specific management agreements (eg., use of subcontractors), as well as the technical deliverables and their specifications and delivery schedule. Completeness is a necessity in this section. If in doubt about whether an item should be included or not, the wise planner will include it.

Schedules : This section outlines the various schedules and lists all milestone events. The estimated time for each task should be obtained from those who will do the work. The project master schedule is constructed from these inputs. The responsible person or department head should sign off on the final, agreedon schedule.

Resources: There are two primary aspects to this section. The first is the budget. Both capital and expense requirements are detailed by task, which makes this a project budget. One-time costs are separated from recurring project costs. Second, cost monitoring and control procedures should be described. In addition to the usual routine cost elements, the monitoring and control procedures must be designed to cover special resource requirements for the project, such as special machines, test equipment, laboratory usage or construction, logistics, field facilities and special materials.

Personnel : This section lists the expected personnel requirements of the project. Special skills, types of training needed, possible recruiting problems, legal or policy restrictions on work-force composition, and any other special requirements, such as security clearances, should be noted here. It is helpful to index personnel needed for the project schedule. This makes clear when the various types of contributors are needed and in what numbers. These manpower projections are important element of the budget, so the personnel, schedule, and resources sections can be cross-checked with one another to ensure consistency.

Evaluation Methods : Every project should be evaluated against standards and by methods established at the project’s inception. This section contains a brief description of the procedure to be followed in monitoring, collecting, storing, and evaluating the history of the project.

Potential Problems: Sometimes it is difficult to convince planners to make a serious attempt to anticipate potential difficulties. One or more such possible disasters as subcontractor’s default, technical failure, strikes, bad weather, sudden required breakthroughs, critical sequences of tasks, tight deadlines, resource limitations, complex coordination requirements, insufficient authority in some areas, and new, complex, or unfamiliar tasks are certain to occur. The only uncertainties are which ones will occur and when. In fact, the timing of these disasters is not random. There are times, conditions, and events in the life of every project when progress depends on subcontractors, or the weather, or coordination, or resource availability, and plans to deal with unfavourable contingencies should be developed early in the project’s life cycle. Some Project managers disdain this section of the plan on the grounds that crises can not be predicted. Further, they claim to be very effective “fire fighters.” It is quite possible that when one finds such a Project manager, one has discovered an “arsonist.” No amount of current planning can solve the current crisis, but pre planning may avert some.

These are the elements that constitute the project plan and are the basis for a more detailed planning of the budgets, schedules, work plan, and general management of the project. Once this basic plan is fully developed and approved, it is disseminated to all interested parties.

System integration (sometimes called systems engineering) plays a crucial role in the performance aspect of the project. We are using this phrase to include any technical specialist in the science or art of the project who is capable of performing the role of integrating the technical disciplines to achieve the customer’s objectives. As such, systems integration is concerned with three major objectives.

Performance: Performance is what a system does. It includes system design, reliability, maintainability, and reparability. Obviously, these are not separate, independent elements of the system, but are highly interrelated qualities. Any of these system performance characteristics is subject to over-design as well as undersign but must fall within the design parameters established by the client. If the client approves, we may give the client more than the specifications require simply because we have already designed to some capability, and giving the client an over designed system is faster and less expensive than delivering precisely to specification. At times, the aesthetic qualities of a system may be specified, typically through a requirement that the appearance of the system must be acceptable to the client.

Effectiveness: The objective is to design the individual components of a system to achieve the desired performance in an optimal manner. This is accomplished through the following guideline: Require no component performance specification unless necessary to meet one or more systems requirements. Every component requirement should be traceable to one or more systems requirements. Design components to optimize system performance, not the performance of a subsystem.

Cost: Systems integration considers cost to be a design parameter, and costs can be accumulated in several areas. Added design cost may lead to decreased component cost, leaving performance and effectiveness otherwise unchanged. Added design cost may yield decreased production cost, and production cost may be trade-off against unit cost for materials. Value engineering examines all these cost trade-offs and is an important aspect of systems integration. It can be used in any project where the relevant cost trade-offs can be estimated. It is simply the consistent and thorough use of cost/effectiveness analysis. For an application of value engineering techniques applied to disease control projects.

Systems integration plays a major role in the success or failure of any project. If a risky approach is taken by system integration, it may delay the project. If the approach is too conservative, we forego opportunities for enhanced project capabilities or advantageous project economics. A good design will take all these trade-offs into account in the initial stages of the technical approach. And it will avoid locking the project into a rigid solution with little flexibility or adaptability in case problems occur later on or changes in the environment demand changes in project performance or effectiveness.

Sorting Out the Project

In order to ensure a successful completion of a Project we need to know exactly what is to be done, by whom, and when. All activities required to complete the project must be precisely delineated and coordinated. The necessary resources must be available when and where they are needed, and in the correct amounts. Some activities must be done sequentially, but some may be done simultaneously. If a large project is to come in on time and within cost, a great many things must happen when and how they are supposed to happen. In this section, we propose a simple method to assist in sorting out and planning all this detail.

To accomplish any specified project, there are several major activities that must be completed. First, list them in the general order in which they would normally occur. A reasonable number of major activities might be anywhere between two and twenty. Break each of these major activities into two to twenty subtasks. There is nothing sacred about the “two to twenty” limits. Two is the minimum possible breakdown and twenty is about the largest number of interelated items that can be comfortably sorted and scheduled at a given level of task aggregation. Second, preparing a network from this information, is much more difficult if the number of activities is significantly greater than twenty.

Sometimes a problem arises because some managers tend to think of outcomes (events) when planning and other think of specific tasks (activities). Many mix the two.  The problem is to develop a list of both activities and outcomes that represents an exhaustive, non redundant set of results to be accomplished (outcomes) and the work to be done (activities) in order to complete the project.

The procedure proposed here is a heirarchical planning system. First, the goals must be specified. This will aid the planner in identifying the set of required activities for the goals to be met, the project Action Plan. Each activity has an outcome (event) associated with it, and these activities and events can be decomposed into sub-activities and sub-events, which may, in turn, be subdivided again. The Project Plan is the set of these Action Plans. The advantage of the Project Plan is that it contains all planning information in one document.

The Work Breakdown Structure and Linear Responsibility Charts

The Work Breakdown Structure (WBS) used in project management is a type of Gozinto chart and is constructed directly from the project’s Action Plans. The WBS may also be perceived as an organization chart with tasks substituted for people It pictures a project subdivided into heirarchical units of tasks, work packages, and work units. The end results is a collection of work units each of which is relatively short in time span. Each has definite beginning and ending points along with specific criteria for evaluating performance. Each part of the project down to the smallest subtask elements is budgetable in terms of money, man hours, and other requisite resources. Each is a single, meaningful job for which individual responsibility can be assigned. Each can be scheduled as one of the many jobs that the organization must undertake and complete.

In constructing the WBS, it is wise to contact the managers and workers who will be directly responsible for each of the work packages. These people can develop a hierarchical plan for the package delegated to them.

The WBS can be used to illustrate how each piece of the project is tied to the whole in terms of performance, responsibility, budgeting, and scheduling. The following general steps explain the procedure for designing and using the WBS as it would be used on a large project. For small or moderate-size projects, some of the steps might be skipped, combined, or handled less formally than our explanation indicates, particularly if the project is of a type familiar to the organization.

1)    Using information obtained from the people who will perform the work, break project tasks down into successively finer levels of detail. Continue the decomposition of work until all meaningful tasks have been identified and each task can be individually planned, scheduled, budgeted, monitored, and controlled.

2)    For each such work element:

Make up a work statement that includes the necessary inputs, the specification reference, particular contractual stipulations, and specific end results to be achieved. List any vendors, contract, and subcontractors who are or may be involved. Identify detailed end item specifications for each work element regardless of the nature of the end item, whether hardware, software, test results, reports, etc.

Establish cost account numbers.

Identify the resource needs, such as manpower, equipment facilities, support, funds, and materials. Cost estimators can assist the Project Manager in constructing a task budget composed of costs for materials, manufacturing operations, freight, engineering, contingency reserves, and other appropriate charges.

List the personnel and organizations responsible for each task. It is helpful to construct a linear responsibility chart (sometimes called a responsibility matrix) to show who is responsible for what. This chart also shows critical interfaces between units that may require special managerial coordination. With it, the Project Manager can keep track of who must approve what and who must report to whom.

3)    The WBS, budget, and time estimates are reviewed with the people or organizations who have responsibility for doing or supporting the work. The purpose of this review is to verify the WBS’s accuracy, budget, schedule, and to check interdependency of tasks, resources, and personnel. The WBS may be revised as necessary, but the planner must be sure to check significant revisions with all individuals who have previously made inputs. When agreement is reached, individuals should sign off on their individual elements of the project plan.

4)    Resource requirements, time schedules, and subtask relationships are now integrated to form the next higher level of the WBS; and so it continues at each succeeding level of the WBS hierarchy. Thus, each succeeding level of the WBS will contain the same kinds of information regarding resources, budgets, schedules, and responsibilities as the levels below it. The only difference is that the information is aggregated to one higher level.

5)    At the uppermost level of the WBS, we have a summary of the project budget. For the purpose of pricing a proposal, or determining profit and loss, the total project budget should consist of four elements: direct budgets from each task as described above; an indirect cost budget for the project, which includes general and administrative overhead costs (G&A), marketing costs, potential penalty charges and other expenses not attributable to particular tasks; a project “contigency” reserve for unexpected emergencies; and any residual, which includes the profit derived from the project, which may, on occasion, be intentionally negative.

6)    Similarly, schedule information and milestone events can be aggregated into a project master schedule. The master schedule integrates the many different schedules relevant to the various parts of the project. It is comprehensive and must include contractual commitments, key interfaces and sequencing, milestone events, and progress reports. In addition, a time contingency reserve for unforeseeable delays should be included.

This series of steps complete the use of the WBS as a project planning document. The WBS is also a key document for implementing, monitoring, and controlling the project. The remaining steps concern its use for these purposes.

7)    One can now compare required task performance and outputs specified in the WBS with those specified in the basic project plan in order to identify potential misunderstandings, problem, and schedule slippages, and then design corrective actions.

8)    As the project is carried out, step by step, the Project Manager can continually examine actual resource use, by work element, work package, task, and so on up to the full project level. By comparing actual against planned resource usage to a given point in time, the Project Manager can identify problems, harden the estimates of final cost, and make sure that relevant corrective actions have been designed and are ready to implement if needed. It is necessary to examine resource usage in relation to results achieved because, while the project may be over budget, the results may be further along than expected. Similarly, the expenses may be exactly as planned, or even lower, but actual progress may be much less than planned.

9)    Finally, the project schedule must be subjected to the same comparisons as the project budget. Actual progress is compared to scheduled progress, by work element, package, task, and complete project, to identify problems and take corrective action. Additional resources may be brought to those tasks behind schedule so as to expedite them. These added funds may come out of the budget reserve or from other tasks that are ahead of schedule.

End-to-end encryption

End-to-end encryption

Data being shared between two devices can be encrypted using a communication method known as end-to-end encryption. It stops outside parties from accessing data while it is being transported, including cloud service providers, internet service providers (ISPs), and hackers. End-to-end encryption uses an algorithm to convert plain text into an unreadable format. Exclusively individuals having the decryption keys, which are only kept on endpoints and not with any other parties like service providers, can decode and read this format. When sending corporate documents, financial information, legal documents, and private discussions, end-to-end encryption has long been employed. Additionally, it can be utilised to limit user access to data that has been stored.

Communication security is achieved through end-to-end encryption. It is used by a number of well-known instant messaging apps, including Signal, WhatsApp, iMessage, and Google Messages.End-to-end encryption is not only used to protect user data in instant messaging, though. It is also used to secure passwords protect stored data and safeguard data on cloud storage.

FINANCIAL TERMINOLOGY: FINANCIAL TERMS TO KNOW Part -I

 FINANCIAL TERMINOLOGY: FINANCIAL TERMS TO KNOW

Part -I

Fund-based Services: Financial services firms that cater the short-term and long-term needs of funds of corporate sector and others are in the fund-based services Examples of fund-based services are commercial banking, term-lending, bill discounting, factoring and forfaiting, venture capital, underwriting, leasing and hire purchase, etc. 

Fee-based Services: Financial services firms that enable the corporate sector and others to raise capital from the market and manage or transfer their risk to other participants of the market are in fee-based services. They provide these services against a fee. Example of fee-based services are merchant banking, broking service,credit rating, mutual funds, portfolio management services, etc.

Moral Hazard: Moral hazard is the tendency of an insured to take greater risk because she/he is insured.

Adverse Selection: Adverse selection is the tendency of insuring the low quality asset and not insuring high quality assets.

Credit Risk: The chances of the borrower defaulting the interest and/or principal. Financial services firms offering fund-based services are exposed to credit risk.

Due-diligence Risk: The chances of regulatory action when the financial services firm failed to properly check the compliance of various regulatory requirements by the issuer of capital and adequacy of the disclosure of information to the public at the time of public/rights issue. The lead manager has to be very cautious before issuing the due-diligence certificate.

Asset-Liability Gap Risk: When firms offering fund based services raise capital through different instruments having different maturity and interest terms and lend or invest in different forms, there is bound to be a mismatch in terms of future interest liability structure and maturity. The gap between the assets-liabilities on these accounts and the chances of firms failing to meet their obligation in the future is asset-liability gap risk.

Interest Rate Risk: Risk arising out of changes in the market interest rate. It affects the financial services firms which have issued securities as well as others which have invested in securities. Changes in interest rates also affect other segments of the financial markets.

Duration: It is a statistical measure that determines the sensitiveness of the security's market price when there is a change in the market interest rate. The variables that determine the duration are coupon rate, current market price and YTM and time to maturity.

Market Risk: The risk that affects all the securities in the market and thus cannot be eliminated through diversification. The changes in the macro-economic factors are the major source of market risk. This is also known as systematic risk.

Unsystematic Risk: The risk that are specific to a firm and its securities is unsystematic risk and could be reduced to a negligible level through diversification. 

Currency Risk: The risk that arises out of changes in currency values. Financial services firms that hold foreign currency assets or liabilities are affected by this risk.

RSA: Rate-sensitive assets (RSA) are those financial instruments whose value changes when there is a change in the market interest rates.

RSL: Rate-sensitive liabilities (RSL) are those liabilities which cause change in the future cash flows from the firm when there is a change in the market interest rates.

Credit Rating: It is an unfettered publication of opinion on credit and market risk associated with an instrument or the firm that raises capital from the market by the credit rating service companies.

Interest Rate Derivatives: A variety of financial instruments that enable the buyer to hedge interest rate risk. Most popular interest rate derivative products are interest rate futures, interest-rate options and interest rate swap.

Index Futures: A standardised forward instrument that allows the participants to buy and sell the underlying index.

Options: An instrument that gives a right to buy or sell a financial instrument at predetermined terms in the future. Options are available on a variety of financial assets.

Currency Swaps: An agreement between two parties to exchange principal and interest liability of different currencies.

Portfolio Insurance: Fund managers of mutual funds can insure the portfolio against market decline by using index futures or index options.

Dynamic Hedging: It is the process through which hedging is done in stages. This will allow the fund managers to have larger hedge when the market is declining and smaller hedge when the market is moving upward.

Structural Regulation determines the type of activities that different forms of institutions are permitted to engage in.

Prudential Regulation covers the internal management of financial service providers in relation to capital adequacy, liquidity and solvency.

Investors' Protection Regulation determine the nature and level of disclosure to be made by the financial service providers to the investors.

Banking Regulations consisting of Banking Regulation Act, 1949 and Directions from the Reserve Bank of India, govern the activities of the banking companies. NBFC Regulations are those directions given by the RBI to regulate different forms of Non-banking financial companies.

Insurance Regulatory Authority (interim) was set up in 1996 based on the recommendations of the Malhotra Committee primarily to regulate, promote and ensure orderly growth of the insurance business in a free market economy.

SEBI is a statutory body that regulates the securities markets and their participants with a main objective of protecting the interest of investors.

SEBI Regulations are set of regulations and guidelines issued by the SEBI on various investment institutions and market intermediaries.

Self Regulations are those framed by various industry associations that govern its members' activities, code of conduct and settlement of disputes between them.

Amortizing debt instruments provide for periodic payments that include both interest and principal.

Capital Market Instruments are debt instruments with maturities of more than a year

Coupon Rate is the rate of interest payable, which is stated on an annual basis .

Continuous Market means orders put on the trading system are matched by the system directly without any manual intervention.

Debt Instrument is a promissory note that evidences a debtor/creditor relationship

Floating Rate Bonds are short to medium term interest bearing instruments issued by financial intermediaries and corporates, in which the coupon rate changes to reflect market conditions.

Dated and State Government Securities are issued by RBI on behalf of Government of India and various state governments for a period of 2 years or more.

Issuer is the borrower who issues marketable debt instruments.

Marketable Debt Instruments are transacted in an exchange and are considered as securities. 

Money Market Instruments are debt instruments having maturities of less than one year.

Negotiated Market refers to deals that have been negotiated outside the exchange and are reported on the trading system for approval by the exchange.

Non-repo Trade outright purchase and sale of securities.

Repo Trades are repurchase agreements wherein a trader sells securities to a customer while simultaneously agreeing to repurchase them at a future date. 

Subsidiary General Ledger is a facility provided by the RBI for maintaining the records of the beneficial owners of Government securities in demand form.

Term to Maturity (or term) is the length of time until the debt instrument matures.

Treasury Bills (T-bills) are short-term obligations issued by RBI on behalf of Government of India at a discount.

Zero Coupon Bonds or zeros require no payment of interest or principal until such time as the instrument matures.

Demat: Investor securities like shares, debentures, etc. are converted into electronic data and stored in computers by a depository. 

Depository: Functions like a securities bank, where the dematerialized physical securities are traded and held in custody. 

Depository Account: An account which the investor opens with a DP wherein all the details of the investor's transactions are recorded in demat form.

Dematerialisation (Demat): Is a process where by physical existence of security certificates is made extinct and converted into electronic holdings. 

Rematerialisation: Converting the shares from electronic to physical or paper form.

Escrow Account: Brokers account with the clearing house bank for primary market issues and the amount collected by the broker from his clients as margin money shall be deposited in this account.

Merchant Banker: Any person who is engaged in the business of issue management either by making arrangements regarding selling, buying or subscribing in securities as manager, consultant, advisor or rendering corporate advisory services in relation to such issue management.

Private Placement: Direct sale of securities by a company to investors. 

Public Issue: A method of raising funds from the public.

Rights Issue: Issues of new shares in which existing shareholders are given preemptive rights to subscribe to new issues of shares. 

Safety net scheme: The merchant bankers provide a buy-back facility to the individual investor in case the price of the share goes below the issue price after listing.

AMC: An agency which evolve policies for investments and disinvestment of the corpus of schemes of a mutual fund.

Closed End Scheme: A scheme which terminates after a specific period.

Corpus: Total funds with a scheme at any time. 

Custodian: An agency for the handling and safekeeping of funds, cash and securities. 

Fund: In India fund refers to a mutual fund whereas in U.S.A. fund refers to one scheme. One fund may launch many schemes in India.

Funds Manager: An individual or a group of individuals who make sale and purchase of securities for the schemes of a mutual fund. 

Load: It is the charge levied on those who purchase units of a scheme after the initial

issue of the scheme. It can be back-end load or front-end load. 

Mutual funds: An agency collecting savings. investing them to get better returns and share returns with contributors.

NAV: It is the intrinsic value (not face value) of a unit of a scheme.

Offer Document: It is a document issued giving required details of a mutual scheme.

Open End Scheme: A scheme which has no specific time frame for its operation.

Portfolio: A group of securities held together.

Credit cards 

Franchisee: The organization which takes franchise to operate the credit cards business from the franchisers like VISA and Mastercard. Franchiser: The organization which allows the franchiser to use their credit card operating system for a payment.

Issuer Bank: The bank which issues credit cards to the users and pays the bills when they are presented for a commission, and recovers the amount with interest.

Merchant Establishment: A business establishment which has agreed to accept the payment through credit cards.

Plastic Money: Another name for credit cards. As these cards are made of plastic, these are known as plastic cards or plastic money.

Factoring: is a financial service covering the financing and collection of accounts receivables in domestic as well as international trade.

Factor: acts as agent in realizing credit sales from buyer and passes on the realized sum to seller after deducting his commission. 

Forfaiting: denotes the purchase of trade bills or promissory notes by a bank or a financial institution without recourse to the seller.

Amortization: Amortization is a method of spreading an intangible asset's cost over the course of its useful life. Intangible assets are non-physical assets that are essential to a company, such as a trademark, patent, copyright, or franchise agreement.

Assets: Assets are items you own that can provide future benefit to your business, such as cash, inventory, real estate, office equipment, or accounts receivable, which are payments due to a company by its customers. 

• Current Assets: Which can be converted to cash within a year.

• Fixed Assets: Which can’t immediately be turned into cash, but are tangible items that a company owns and uses to generate long-term income

Asset Allocation: Asset allocation refers to how you choose to spread your money across different investment types, also known as asset classes. 

• Bonds: Bonds represent a form of borrowing. When you buy a bond, typically from the government or a corporation, you’re essentially lending them money. You receive periodic interest payments and get back the loaned amount at the time of the bond’s maturity—or the defined term at which the bond can be redeemed.

• Stocks: A stock is a share of ownership in a public or private company. When you buy stock in a company, you become a shareholder and can receive dividends—the company’s profits—if and when they are distributed.

• Cash and Cash Equivalents: This refers to any asset in the form of cash, or which can be converted to cash easily in the event it's necessary.

4. Balance Sheet: A balance sheet is an important financial statement that communicates an organization’s worth, or “book value.” The balance sheet includes a tally of the organization’s assets, liabilities, and shareholders’ equity for a given reporting period.

• The Balance Sheet Equation: Balance sheets are arranged according to the following equation: Assets = Liabilities + Owners’ Equity

 Capital Gain: A capital gain is an increase in the value of an asset or investment above the price you initially paid for it. If you sell the asset for less than the original purchase price, that would be considered a capital loss.

Capital Market: This is a market where buyers and sellers engage in the trade of financial assets, including stocks and bonds. Capital markets feature several participants, including:

• Companies: Firms that sell stocks and bonds to investors

• Institutional investors: Investors who purchase stocks and bonds on behalf of a large capital base

• Mutual funds: A mutual fund is an institutional investor that manages the investments of thousands of individuals

• Hedge funds: A hedge fund is another type of institutional investor, which controls risk through hedging—a process of buying one stock and then shorting a similar stock to make money from the difference in their relative performance

Cash Flow: Cash flow refers to the net balance of cash moving in and out of a business at a specific point in time. Cash flow is commonly broken into three categories, including:

• Operating Cash Flow: The net cash generated from normal business operations

• Investing Cash Flow: The net cash generated from investing activities, such as securities investments and the purchase or sale of assets

• Financing Cash Flow: The net cash generated financing a business, including debt payments, shareholders’ equity, and dividend payments

Cash Flow Statement: A cash flow statement is a financial statement prepared to provide a detailed analysis of what happened to a company’s cash during a given period of time. This document shows how the business generated and spent its cash by including an overview of cash flows from operating, investing, and financing activities during the reporting period.

Compound Interest: This refers to “interest on interest.” Rather, when you’re investing or saving, compound interest is earned on the amount you deposited, plus any interest you’ve accumulated over time. While it can grow your savings, it can also increase your debt; compound interest is charged on the initial amount you were loaned, as well as the expenses added to your outstanding balance over time.

 Depreciation: Depreciation represents the decrease in an asset’s value. It’s a term commonly used in accounting and shows how much of an asset’s value a business has used over a period of time.

EBITDA: An acronym standing for Earnings Before Interest, Taxes, Depreciation, and Amortization, EBITDA is a commonly used measure of a company’s ability to generate cash flow. To get EBITDA, you would add net profit, interest, taxes, depreciation, and amortization together.

Equity: Equity, often called shareholders’ equity or owners’ equity on a balance sheet, represents the amount of money that belongs to the owners of a business after all assets and liabilities have been accounted for. Using the accounting equation, shareholder’s equity can be found by subtracting total liabilities from total assets.

 Income Statement: An income statement is a financial statement that summarizes a business’s income and expenses during a given period of time. An income statement is also sometimes referred to as a profit and loss (P&L) statement.

Liabilities: The opposite of assets, liabilities are what you owe other parties, such as bank debt, wages, and money due to suppliers, also known as accounts payable. There are different types of liabilities, including:

• Current Liabilities: Also known as short-term liabilities, these are what’s due in the next year

• Long-Term Liabilities: These are financial obligations not due over a year that can be paid off over a longer period of time

 Liquidity: Liquidity describes how quickly your assets can be converted into cash. Because of that, cash is the most liquid asset. The least liquid assets are items like real estate or land, because they can take weeks or months to sell.

 Net Worth: You can calculate net worth by subtracting what you own, your assets, with what you owe, your liabilities. The remaining number can help you determine the overall state of your financial health.

 Profit Margin: Profit margin is a measure of profitability that’s calculated by dividing the net income by revenue or the net profit by sales. Companies often analyze two types of profit margins:

Gross Profit Margin: Which typically applies to a specific product or line item rather than an entire business

Net Profit Margin: Which typically represents the profitability of an entire company

Return on Investment (ROI): Return on Investment is a simple calculation used to determine the expected return of a project or activity in comparison to the cost of the investment, typically shown as a percentage. This measure is often used to evaluate whether a project will be worthwhile for a business to pursue. ROI is calculated using the following equation: ROI = [(Income - Cost) / Cost] * 100

Valuation: Valuation is the process of determining the current worth of an asset, company, or liability. There are a variety of ways you can value a business, but regularly repeating the process is helpful, because you’re then ready if ever faced with an opportunity to merge or sell your company, or are trying to seek funding from outside investors.

Working Capital: Also known as net working capital, this is the difference between a company’s current assets and current liabilities. Working capital—the money available for daily operations—can help determine an organization’s operational efficiency and short-term financial health.