Here is the model/ the list of tables and data that I came up with. I think it covers most of the scnerios/queries that you might use for getting data out of the application.
Equipment table and check tables are two independent entities having the master list of equipment and checks respectively.
Whenever you have to set up a series of checks for a given equipment, you will insert a new record in the equipment_check_asc table. Since these associations/ checks are time-based, we have an effective date and end-date to determine what are the checks needed at a given point in time and also to keep a historical track of what checks were mandated at that point in time.
The actual checks that are made are done using a child table (equipment_check_audit) that records the checks made for each equipment for a given day (whenever they are made).
You can answer the following queries easily from the below model and these are the ones that I could think of.
a) What are the checks needed for this equipment as of today?
b) What were the checks needed for an equipment as of given date
c) Of the required checks, how many were performed and how many were not ( today and any given day ).
d) Of the checks performed, how many passed / failed.
create table equipment(
equipment_id number primary key,
equipment_name varchar2(200) not null
create table checks(
checkid number primary key,
check_name varchar2(100) not null
create table equipment_check_asc(
equipment_check_asc_id number primary key,
equipment_id number not null,
checkid number not null,
eff_date date not null,
end_date date ,
eff_flag varchar2(1) not null, -- kind of redundant, easier to find the checks effective today.
constraint fk_equipment_id foreign key (equipment_id) references equipment(equipment_id),
constraint fk_checkid foreign key (checkid) references checks(checkid),
constraint unq_check unique (equipment_id,checkid,eff_date)
create table equipment_check_audit(
audit_id number primary key,
equipment_check_asc_id number not null,
pass_fail_ind varchar2(1) not null,
audit_date date not null,
constraint fk_check_id foreign key (equipment_check_asc_id ) references
There might be other corner cases that you might need to cover and model for, but this should give you a general idea.
Here is the data that I tested with.
insert into equipment values (1, 'Item 1');
insert into equipment values (2, 'Item 2');
insert into checks values (100, 'Temperature');
insert into checks values (101, 'Robustness' );
insert into checks values (102, 'Stable' );
insert into equipment_check_asc values (1000,1,100,sysdate-10, NULL , 'Y');
insert into equipment_check_asc values (1001,1,101,sysdate-10, NULL , 'Y');
insert into equipment_check_asc values (1002,1,102,sysdate-2 , NULL , 'Y');
insert into equipment_check_asc values (1003,2,100,sysdate-30, sysdate-1 , 'N');
insert into equipment_check_asc values (1004,2,101,sysdate-30, NULL , 'Y');
delete from equipment_check_audit;
/*** Item A ***/
---checks made on 12/09
insert into equipment_check_audit values (10000, 1000, 'Y', sysdate-5);
---insert into equipment_check_audit(10000, 1000, 'Y', sysdate-5); No checks made on robustness even when it was needed.
-- no check done on stability. (as it was not needed).
---checks made today. (all positives case)
insert into equipment_check_audit values (10001, 1000, 'Y', sysdate);
insert into equipment_check_audit values (10002, 1001, 'N', sysdate);
insert into equipment_check_audit values (10003, 1002, 'Y', sysdate);
/*** Item B ***/
--checks made on 12/9
insert into equipment_check_audit values (10004, 1003, 'Y', sysdate-5);
--checks made today.
insert into equipment_check_audit values (10005, 1004, 'Y', sysdate);