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Currently I'm working on a RFID project where each tag is attached to an object. An object could be a person, a computer, a pencil, a box or whatever it comes to the mind of my boss. And of course each object have different attributes.

So I'm trying to have a table tags where I can keep a register of each tag in the system (registration of the tag). And another tables where I can relate a tag with and object and describe some other attributes, this is what a have done. (No real schema just a simplified version)

enter image description here

Suddenly, I realize that this schema could have the same tag in severals tables. For example, the tag 123 could be in C and B at the same time. Which is impossible because each tag just could be attached to just a single object.

To put it simple I want that each tag could not appear more than once in the database.

My current approach enter image description here

What I really want enter image description here

Update: Yeah, the TagID is chosen by the end user. Moreover the TagID is given by a Tag Reader and the TagID is a 128-bit number.

New Update: The objects until now are:

-- Medicament(TagID, comercial_name, generic_name, amount, ...)

-- Machine(TagID, name, description, model, manufacturer, ...)

-- Patient(TagID, firstName, lastName, birthday, ...)

All the attributes (columns or whatever you name it) are very different.

Update after update

I'm working on a system, with RFID tags for a hospital. Each RFID tag is attached to an object in order keep watch them and unfortunately each object have a lot of different attributes.

An object could be a person, a machine or a medicine, or maybe a new object with other attributes.

So, I just want a flexible and cleaver schema. That allow me to introduce new object's types and also let me easily add new attributes to one object. Keeping in mind that this system could be very large.


Medicine(generic_name, comercial_name, expiration_date, dose, price, laboratory, ...)
Machine(model, name, description, price, buy_date, ...)
Patient(PatientID, first_name, last_name, birthday, ...)

We must relate just one tag for just one object.

Note: I don't really speak (or also write) really :P sorry for that. Not native speaker here.

share|improve this question
Please specify if the TagID is chosen by an end user and if we are dealing with a DB with the Objects already there or if this is being created from scratch... – Dining Philanderer Mar 30 '11 at 18:58
If a tag can be attached to just one object, then it's more like a category than a tag. Unless a single object is allowed to have more than one tag. – Andriy M Mar 31 '11 at 0:40
@Andriy M until now one tag is attached to one object. And I don't think necessary more than one tag for object since all of the objects have a relative small size (No longer than 2 mts). – razpeitia Mar 31 '11 at 2:44
i'm in the sql/database chartoom if you want to talk about this. – DForck42 Apr 1 '11 at 16:42
up vote 6 down vote accepted

You can enforce these rules using relational constraints. Check out the use of a persisted column to enforce the constraint Tag:{Pencil or Computer}. This model gives you great flexibility to model each child table (Person, Machine, Pencil, etc.) and at same time prevent any conflicts between tag. Also good that we dont have to resort to triggers or udfs via check constraints to enforce the relation. The relation is built into the model.


create table dbo.TagType (TagTypeID int primary key, TagTypeName varchar(10));
insert into dbo.TagType
    values(1, 'Computer'), (2, 'Pencil');

create table dbo.Tag
(   TagId       int primary key, 
    TagTypeId   int references TagType(TagTypeId), 
    TagName     varchar(10),
    TagDate     datetime,
    constraint UX_Tag unique (TagId, TagTypeId)
create table dbo.Computer 
(   TagId       int primary key, 
    TagTypeID   as 1 persisted,
    CPUType     varchar(25),
    CPUSpeed    varchar(25), 
    foreign key (TagId, TagTypeID) references Tag(TagId, TagTypeID)
create table dbo.Pencil 
(   TagId       int primary key, 
    TagTypeId   as 2 persisted,
    isSharp     bit,
    Color       varchar(25),
    foreign key (TagId, TagTypeID) references Tag(TagId, TagTypeId)

-- create a new tag of type Pencil:
insert into dbo.Tag(TagId, TagTypeId, TagName, TagDate)
    values(1, 2, 'Tag1', getdate());

insert into dbo.Pencil(TagId, isSharp, Color)
    values(1, 1, 'Yellow');

-- try to make it a Computer too (fails FK)
insert into dbo.Computer(TagId, CPUType, CPUSpeed)
    values(1, 'Intel', '2.66ghz')
share|improve this answer
How do you prevent pencil and computer from using the same TagId? – Phil Helmer Apr 5 '11 at 23:30
TagId can only be of one type of TagTypeId, enforced by the 1:1 relationship in dbo.Tag My second insert attempts to make TagId 1 a computer as well... it will fail – Nathan Skerl Apr 5 '11 at 23:37
For example, to make TagId 1 a computer, you would first have to delete the row in dbo.Pencil, then update dbo.Tag to make TagTypeId = 1, then insert into dbo.Computer – Nathan Skerl Apr 5 '11 at 23:39
+1 Yes this is how I implement inheritance. Just like in object-oriented programming, a set of related classes should have a common superclass or an interface, you have created a common table that governs the TagId and the TagType of each individual subclass. Uniqueness is enforced, and each subclass can have their own set of attributes stored properly in columns. To add a new TagType, just add a new row in the TagType table. – Bill Karwin Apr 7 '11 at 1:04
Right on Bill. Well said. – Nathan Skerl Apr 7 '11 at 1:35

Have a Tag Table with PK identity insert of TagID. This will ensure that each TagID only shows up once no matter what...

Then in the Tag Table have a TagType column that can either be free form (TableName) or better yet have a TagType table with entries A,B,C and then have a FK in Tag pointing TagType.

I would move the Tag attributes into Table A,B,C to minimize extra data in Tag or have a series of Junction Tables between Tag and A,B, and C

EDIT: Assuming the TagID is created when the object is created this will work fine (Insert into Tag first to get TagID and capture it using IDENTITY_INSERT) This assumes users cannot edit the TagID itself.

If users can choose the TagID then still use a Tag Table with the TagID but have another field called DisplayID where the user can type in a number. Just put on a unique constraint on Tag.DisplayID....

EDIT: What attributes are you needing and are they nullable? If they are different for A, B, and C then it is cleaner to put them in A, B, and C especially if there might be some for A and B but not C...

share|improve this answer

talked with Raz to clear up what he's trying to do. What he's wanting is a flexable way to store attributes related to tags. Tags can one of multiple types of objects, and each object has a specific list of attributes. he also wants to be able to add objects/attributes without having to change the schema. here's the model i came up with:


share|improve this answer
+1 for the flexible solution. The drawback I see with this kind of approach is that one loses the possibility of specifying constraints on Object Attributes. Depending on how frequently objects are added, I'd consider creating an attribute table for each type and add a FK to ObjectTypes. – Diego Apr 4 '11 at 15:34
@Diego, i don't quite follow what you mean. – DForck42 Apr 4 '11 at 20:54
How would you make a given attribute mandatory? In a conventional design, you just declare a column NOT NULL. In your design (which is just a variation of the EAV antipattern) you can't. Nor can you apply to ttData any constraint, like a CHECK or FOREIGN KEY to a lookup table. Also ttData needs to be a large VARBINARY or something to account for any possible attribute type. – Bill Karwin Apr 7 '11 at 0:55
This is also a pretty good solution except for the data-type problem. And the little overhead on the joins. – razpeitia Apr 7 '11 at 19:27

if each tag can only be in a, b, or c only once, i'd just combine a, b, and c into one table. it'd be easier to give you a better idea of how to build your schema if you gave an example of exactly what you're wanting to collect.

to me, from what i've read, it sounds like you have a list of tags, and a list of objects, and you need to assign a tag to an object. if that is the case, i'd have a tags table, and objects table, and a ObjectTag table. in the object tab table you would have a foreign key to the tag table and a foreign key to the object table. then you make a unique index on the tag foreign key and now you've enforced your requirement of only using a tag once.

share|improve this answer
This is a very interesting and elegant solution. But how I would manage all the different attributes that can or can not have a object? – razpeitia Mar 30 '11 at 17:11
could you explain what an attribute is? – DForck42 Mar 30 '11 at 18:58
attributes are the extra columns. This is pretty close to what i would suggest, however you would then have your a,b,c tables in addition with the appropriate attributes that have the FK back to the original tag table. – Randy Mar 30 '11 at 19:20
depending on how many columns you have and the data types, you might be able to just leave them all in the same table and leave the unused as null. to do this right though you'll need some way to identify what type of object you have so that you can pull the appropriate columns for the approprite object type. – DForck42 Mar 30 '11 at 19:57
You are suggesting to use the object type to decide which columns to pull the detail data from (if they were all in one table), and, for example, I am suggesting to use that attribute to decide which table (a, b, or c) to pull the details from. What is the difference? In particular, what would be the advantage of having one big and wide table as opposed to 1 (object list) + 3 (details for each object type)? – Andriy M Mar 31 '11 at 6:04

I would tackle this using your original structures. Relational databases are a lot better at aggregating/combining atomic data than they are at parsing complex data structures.

  • Keep the design of each "tag-able" object type in its own table. Data types, check constraints, default values, etc. are still easily implemented this way. Also, continue to define a FK from each object table to the Tags table.

  • I'm assuming you already have this in place, but if you place a unique constraint on the TagId column in each of the object tables (A, B, C, etc.) then you can guarantee uniqueness within that object type.

  • There are no built-in SQL Server constraints to guarantee uniqueness among all the object types, if implemented as separate tables. So, you will have to make your own validation. An INSTEAD OF trigger on your object tables can do this cleanly.

First, create a view to access the TagId list across all your object tables.


Then, for each of your object tables, define an INSTEAD OF trigger to test your TagId.

CREATE TRIGGER dbo.T_IO_Insert_TableA ON dbo.A
    IF EXISTS (SELECT 0 FROM dbo.TagsInUse WHERE TagId = inserted.TagId)
        --The tag(s) is/are already in use. Create the necessary notification(s).
        RAISERROR ('You attempted to re-use a TagId. This is not allowed.');
        --The tag(s) is/are available, so proceed with the INSERT.
        INSERT INTO dbo.A (TagId, Attribute1, Attribute2, Attribute3)
            SELECT  i.TagId, i.Attribute1, i.Attribute2, i.Attribute3
            FROM    inserted AS i

Keep in mind that you can also (and probably should) encapsulate that IF EXISTS test in a T-SQL function for maintenance and performance reasons.

You can write supplementary stored procedures for doing things like finding what object type a TagId is associated with.


  • You are still taking advantage of SQL Server's data integrity features, which are all quite fast and self-documenting. Don't underestimate the usefulness of data types.

  • The view is an encapsulation of the domain that must be unique without combining the underlying sets of attributes. Now, you won't have to write any messy code to decipher the object's type. You can base that determination by which table contains the matching tag.

  • Your options remain open...

Because you didn't store everything in an EAV-friendly nvarchar(300) column, you can tweak the data types for whatever makes the most sense for each attribute.

If you run into any performance issues, you can index the view.

You (or your DBA) can move the object tables to different file groups on different disks if you need to balance things out and help with parallel disk I/O. Think of it as a form of horizontal partitioning. For example, if you have 8 times as many RFID tags applied to medicine containers as you have for patients, you can place the medicine table on a different disk without having to create the partitioning function that you would need for a monolithic table (one table for all types).

If you need to eventually partition your tables vertically (for archiving data onto a read-only partition), you can more easily create a partitioning function for each object type. This would be useful where the business rules do

Most importantly, implementing different business rules based on object type is much simpler. You don't have to implement any nasty conditional logic like "IF type = 'needle' THEN ... ELSE IF type = 'patient' THEN ... ELSE IF....". If you need to apply different rules, then apply them to the relevant object table without having to test a "type" value.


  • Triggers have to be maintained. However, this would have to be done in your application anyway, so you are performing the same data integrity checking at the database. That means that you will have no extra network overhead and this will be available for any application that uses this database.
share|improve this answer
the main problem i see with this is that, if he adds another object type, he'll have to modify EVERYTHING. this method is better if the schema won't change often (which he never specified how often it might), but it'll be a pain to maintain if it does update somewhat often, because you have to remember to add the trigger and update the view. – DForck42 Apr 3 '11 at 21:37
"Everything" isn't actually that much. The additional overhead is 1.) Add the table to the view. 2.) Create the triggers. Anything beside those are things one would do when adding any table to the database (choosing types, constraints, etc.). The main benefit of this approach is that you can implement business rules at the db level without unnecessary gymnastics (the behavior of syringes vs. dialysis machines), especially FKs. If the addition of object types is frequent, it's reasonable enough to write code that will create the trigger based on the tables' metadata. – Phil Helmer Apr 5 '11 at 4:06

What you're describing is a classical "table-per-type" ORM mapping. Entity Framework has built-in support of this, which you should look into.

Otherwise, I don't think most databases have easy integrity constraints that are enforced over primary keys of multiple tables.

However, is there any reason why you can't just use a single tags table to hold all the fields? Use a type field to hold the type of object. NULL all the irrelevant fields -- this way they don't consume disk space. You'll end up with far fewer tables (only one) that you can maintain as one single coherent object; it also makes you write far fewer SQL queries to work on tags that may span multiple object types.

Implementing it as one single table also saves you disk space because you can implement tiers of inheritance -- for example, "patient" and "doctor" and "nurse" can be three different object types, each having similar fields (e.g. firstname, lastname etc.) and some unique fields. Right now you'll need three tables, with duplicated fields.

It is also simpler when you add an object type. Before, you need to add a new table, and duplicate some SQL statements that span multiple object types. Now you only need to add new fields to the same table (maybe reuse some). The SQL you need to change are far fewer.

The only reason why you won't go with one single table is when the number of fields make a row too large to fit inside a SQL-Server page (which I believe is 8K). Then SQL will complain and won't allow you to add any more fields. The solution, in this case, is to adopt an ORM tool (like Entity Framework), and then "reuse" fields. For example, if "Field1" is only used by object type #1, there is no reason why object type #3 can't use it to store something as well. You only need to be able to distinguish it in your programs.

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You could have the Tags table such that it can have a pointer to any of those tables, and could include a Type that tells you which of the tables it is

Type (A,B, or C)
A (nullable)
B (nullable)
C (nullable)

(other attributes)
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