Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I just started making a database for my website so I am re-reading Database Systems - Design, Implementation and Management (9th Edition)but i notice there is no single step by step process described in the book to create a well organized and normalized database. The book seems to be a little all over the place and although the normalization process is all in one place the steps leading up to it are not.

I thought it be very usefull to have all the steps in one list but i cannot find anything like that online or anywhere else. I realize the answerer explaining all of the steps would be quite an extensive one but anything i can get on this subject will be greatly appreciated; including the order of instructions before normalization and links with suggestions.

Although i am semi familiar with the process i took a long break (about 1 year) from designing any databases so i would like everything described in detail.

I am especially interested in:

  • Whats a good approach to begin modeling a database (or how to list business rules so its not confusing)

I would like to use ER or EER (extended entity relationship model) and I would like to know

  • how to model subtypes and supertypes correctly using EER(disjoint and overlapping) (as well as writing down the business rules for it so you know that its a subtype if there is any common way of doing that)

(I allready am familiar with the normalization process but an answer can include tips about it as well)

Still need help with:

  • Writing down business rules (including business rules for subtypes and super types in EER)
  • How to use subtypes and super-types in EER correctly (how to model them)

Any other suggestions will be appreciated.

share|improve this question
Check the following link for some infos and a 20-step list for your first question:… – MicSim May 24 '12 at 7:34

I would recommend you this videos (about 9) about E/R modeling


"how extensive must the diagrams for this model be ? must they include all the entities and attributes?? "

Yes, actually you have ER modeling and extend ER modeling,

The idea is to make the Extended ER modeling, because there you not only specify the entities, you also specify the PK and FK and the cardinality. Take a look to this link (see the graphics and the difference between both models).

there are two ways of modeling, one is the real scenario and the other one is the real structure of the DB, I.E:

When you create a E-ER Modeling you create even the relationship and cardinality for ALL entities, but when you are going to create the DB is not necessary to create relations with cardinality 1:N(The table with cardinality N create a FK from table with card. 1, and you don't need to create the relation Table into the DB) or when you have a 1:1 cardinality you know that one of your entities can absorb the other entity.

look this Graphic , only the N:M relations entities were create (when you see 2 or more FK, that's a relation table)

But remember those are just "rules" and you can break it if your design need to, for performance, security, etc.

about tools, there are a lot of them, But I recommended workbench, because you can use it to connect to your DBs (if you are in mysql) and create designs E/R modeling, with attributes, and he will auto-create the relations tables N:M.


here I put some links that can explain that a little bit better, it will take a lot of lines and will be harder to explain here and by myself, please review this links and let me know if you have questions:

type and subtype:

business rules (integrity constrain)

share|improve this answer
videos seem very basic but ill watch them all anyways. :) – Xitcod13 May 26 '12 at 5:00
@Xitcod13 if they are not enough let me know to get you more info. – jcho360 May 26 '12 at 15:56
it's always good to get more info. I'd like to see all the questions that i asked answered – Xitcod13 May 26 '12 at 18:31
@Xitcod13 I just edited, let me know if I explain myself, regards. – jcho360 May 27 '12 at 15:46
thanks a lot! IT really helps i just downloaded the program and i benefited a lot from your answer! I wish i could give it another upvote but alas im limited to one – Xitcod13 May 27 '12 at 22:30
up vote 2 down vote accepted

I have reread the book and some articles online and have created a short list of steps in order to design a decent database (of course you need to understand the basics of database design first) Steps are described in greater detail below:

(A lot of steps are described in the book: Database Systems - Design, Implementation and Management (9th Edition) and thats what the page numbers are refering too but i will try to describe as much as I can here and will edit this answer in the following days to make it more complete)

  1. Create a detailed narrative of the organization’s description of operations.
  2. Identify the business rules based from the description of operations.
  3. Identify the main entities and relationships from the business rules.
  4. Translate entities/relationships to EER model
  5. Check naming conventions
  6. Map ERR model to logical model (pg 400)*
  7. Normalize logical model (pg 179)
  8. Improve DB design (pg 187)
  9. Validate Logical Model Integrity Constraints (pg 402) (like length etc.)
  10. Validate the Logical Model against User Requirements
  11. Translate tables to mySQL code (in workbench translate EER to SQL file using export function then to mySQL)

*you can possibly skip this step if you using workbench and work of the ER model that you design there.

Describe the workings company in great detail. If you are creating personal project describe it in detail if you are working with a company ask for documents describing their company as well as interviewing the employees for information (interviews might generate inconsistent information make sure to check with supervisers which information is more important for design)
Look at the gathered information and start generating rules from them make sure to fill in any information gaps in your knowledge. Confirm with supervisers in the company before moving on.
Identify the main entities and relationships from the business rules. Keep in mind that during the design process, the database designer does not depend simply on interviews to help define entities, attributes, and relationships. A surprising amount of information can be gathered by examining the business forms and reports that an organization uses in its daily operations. (pg 123)

If the database is complex you can break down the ERD design into followig substeps
i) Create External Models (pg 46)
ii) Combine External Models to form Conceptual Model (pg 48)

Follow the following recursive steps for the design (or for each substep) 
    I.   Develop the initial ERD.
    II.  Identify the attributes and primary keys that adequately describe the entities.
    III. Revise and review the ERD.
    IV.  Repeat steps until satisfactory output

You may also use entity clustering to further simplify your design process.

Describing database through ERD: Use solid lines to connect Weak Entities (Weak entities are those which cannot exist without parent entity and contain parents PK in their PK). Use dashed lines to connect Strong Entities (Strong entities are those which can exist independently of any other entity)

Check if your names follow your naming conventions. I used to have suggestions for naming conventions here but people didn't really like them. I suggest following your own standards or looking up some naming conventions online. Please post a comment if you found some naming conventions that are very useful.

6. Logical design generally involves translating the ER model into a set of relations (tables), columns, and constraints definitions.

Translate the ER to logical model using these steps:

  1. Map strong entities (entities that dont need other entities to exist)
  2. Map supertype/subtype relationships
  3. Map weak entities
  4. Map binary relationships
  5. Map higher degree relationships

7. Normalize the Logical Model. You may also denormalize the logical model in order to gain some desired characteristics. (like improved performance)


  1. Refine Attribute Atomicity - It is generally good practice to pay attention to the atomicity requirement. An atomic attribute is one that cannot be further subdivided. Such an attribute is said to display atomicity. By improving the degree of atomicity, you also gain querying flexibility.

  2. Refine Primary Keys as Required for Data Granularity - Granularity refers to the level of detail represented by the values stored in a table’s row. Data stored at their lowest level of granularity are said to be atomic data, as explained earlier. For example imagine ASSIGN_HOURS attribute to represent the hours worked by a given employee on a given project. However, are those values recorded at their lowest level of granularity? In other words, does ASSIGN_HOURS represent the hourly total, daily total, weekly total, monthly total, or yearly total? Clearly, ASSIGN_HOURS requires more careful definition. In this case, the relevant question would be as follows: For what time frame—hour, day, week, month, and so on—do you want to record the ASSIGN_HOURS data? For example, assume that the combination of EMP_NUM and PROJ_NUM is an acceptable (composite) primary key in the ASSIGNMENT table. That primary key is useful in representing only the total number of hours an employee worked on a project since its start. Using a surrogate primary key such as ASSIGN_NUM provides lower granularity and yields greater flexibility. For example, assume that the EMP_NUM and PROJ_NUM combination is used as the primary key, and then an employee makes two “hours worked” entries in the ASSIGNMENT table. That action violates the entity integrity requirement. Even if you add the ASSIGN_DATE as part of a composite PK, an entity integrity violation is still generated if any employee makes two or more entries for the same project on the same day. (The employee might have worked on the project a few hours in the morning and then worked on it again later in the day.) The same data entry yields no problems when ASSIGN_NUM is used as the primary key.

  3. Try to answer the questions: "Who will be allowed to use the tables and what portion(s) of the table(s) will be available to which users?" ETC.

Please feel free to leave suggestions or links to better descriptions in the comments below i will add it to my answer

share|improve this answer
In naming conventions I didn't see you mention, do not use keywords that the database itself will use or spaces. And if a field is in more than one table (PK/FKs for instance), it should have the same name. – HLGEM Jul 20 '12 at 18:11
naming conventions are only for table and column names, databases (at least mysql) will not allow you to use spaces in the names. I will add avoiding using database reserved words to the list. As for PK's and FK's having the same name breaks the convention of being able to identify which table each field belongs to by fields name. (and names cannot always be the same because sometimes PK is a FK 2 times in the same table) – Xitcod13 Jul 20 '12 at 18:30
The convention of having the table name in the column name is one I do not agree with. It is just extra useless work and longer hard-to-read fieldnames that are not giving you any information you don't already have. I have seen thousands of databases and not a single one used that convention. If you write queries you can prefix them with the tablename (or alias) anyway in the query. – HLGEM Jul 20 '12 at 18:45
this convention makes sure that all fields have unique names. So that product name field has a different name from employee name field. This way when you are making a selection you do not select a name from a wrong table by mistake which happens when you copy paste code. (it has helped me in the past but its just a convention people dont have to follow it if they dont like it, and people that want to read what other people think about it will go to the comments and will find your comment) I still might change the conventions later I just dont want to think about it. – Xitcod13 Jul 20 '12 at 19:01
Many useful points, some less so. I disagree with quite a few naming "conventions" you list here. Prefixing boolean and date columns is a matter of taste and context. If in doubt, don't do it - only leads to longer names. I advise to use identical names for primary and foreign keys, like tbl_id. Besides being unique and informative, you can JOIN with the USING clause that way. Would never use table acronyms in the column names. Try to name important columns uniquely without that useless noise. Etc. – Erwin Brandstetter Jul 20 '12 at 20:48

One aspect of your question touched on representing subclass-superclass relationships in SQL tables. Martin Fowler discusses three ways to design this, of which my favorite is Class Table Inheritance. The tricky part is arranging for the Id field to propagate from superclasses to subclasses. Once you get that done, the joins you will typically want to do are slick, easy, and fast.

share|improve this answer

There are six main steps in designing any database : 1. Requirements Analysis 2. Conceptual Design 3. Logical Design 4. Schema Refinement 5. Physical Design 6. Application & Security Design.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.