Difference between revisions of "Observers"

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(Activity observers)
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= Activity observers =
 
= Activity observers =
 +
== Selecting/Removing observation type ==
 
== Filters on observation fields ==
 
== Filters on observation fields ==
 
== Binding properties ==
 
== Binding properties ==

Revision as of 13:03, 17 May 2016

As seen before, it is possible to navigate among the things with the platform (see Tree editor). It is also possible to filter them according to some regular expression on their name and/or description.

We introduced the notion of Observer to allow to associate things of different types: for instance, to be able to retrieve the trucks and the clients of a company at the same time which allows to show them together in the map. As shown below, observers make also possible to filter with criteria on other fields than can be numerical, string, boolean and datetime.

More advanced constraints are available on the location and proximity area fields of the things. It is also possible to define criteria on aggregations of the things' snapshots.

Create observer workflow

Set observer name

Select thing type(s) or Observation type

  • depends of observer type

Define logic criteria

  • depends of types semantic

Execute it

  • depend of observer type might need an observation instance to execute

Handling observers

Observers creation and loading

First thing to do is to open the observer's editor:

  • Navigate to things and then click on the observer button ObserverEditorButton.png at the bottom of the window.
The observer editor will appear over the navigator with its own menu bar on top of the page and another menu in the right side.
When there is no observer loaded, the editor menu will look like
EmptyObserverEditor.png
  • Click on NewObserverBtn.png to create a new observer and select its name in the opened dialog:
CreateObserverDlg.png
or just open an existing one by clicking on OpenObserverBtn.png and selecting it in the opened window
SelectObserver.png
  • Finally, the observer editor top menu will appear
ObserverEditorMenu.png

Deletion and unloading

Click on ObserverDeleteBtn.png to delete the currently loaded observer or just unload it by using the ObserverUnloadBtn.png. The editor will return to its initial state: EmptyObserverEditor.png

Also, if the observer was executed, and thus the things filtered, the editor will return the list of thing instances that matched the criteria

Adding/Removing thing types

In order to show things of different types at the same time you must load or create an observer. The thing types can be chosen with the button ObserverEntityTypeBtn.png and once a type is selected the menu in the right will be updated

   For instance, let us suppose we want to see all the Trucks and the endCustomers of a company. We click on the button once to select type Truck and once to select endCustomers.Then you can save the observer by clicking on button ObserverSaveBtn.png and the observer editor will look like this
   Observer with trucks and endCustomers
   Execute the observer with button ObserverExecuteBtn.png and the list of things will contain all the trucks and endCustomers the user has access to.
   List of trucks and endCustomers after executing an observer

If a chosen thing type is no longer needed and it is wanted to be removed from the list, go to the right side menu, click on the thing type submenu and then click on the last option at the bottom ObserverRemoveThingType.png

  Note: Do not forget to save the observer if you want to keep your changes. If you execute it, a dialog window will allow you to save it or cancel the operation.

Execute observers

Filter criteria

It is possible to filter the things to observe, by activating some constraints on thing fields. Selecting a thing type on the right-side menu, the list of fields that allow constraints will appear

 ObserverFieldListMenu.png

Choosing a field will show all the available criteria for this field

 ObserverConstraintMenu.png

Then, click on one of the options to show the constraint editor in the center of the screen, below the observer menu. Set the contraint parameters in the corresponding spaces.

 ObserverConstraintEditor.png

It is also possible to enable/disable a given constraint by unchecking the ObserverAssignButton.png at the left of the field name.

 Note: All the constraints that are unchecked will be ignored in the saving process. However, their parameter values will stand in the client while the editor is active.

The constraint list will depend on the type of the field as it will be shown below. There are several basic constraints that correspond to base field types (numerical, text, datetime and boolean). There are also some advanced constraints and constraints on aggregation functions.

Basic constraints

The basic constraints correspond to the primitive field types and are given below

  • numerical (long, integer and double)
    • lte - lower than or equal
    • gte - greater than or equal
  • text
    • regex - satisfies a regular expression
    • eq - equals
  • datetime
    • lte - lower than or equal
    • gte - greater than or equal
  • boolean
    • eq - equals

In order to edit a constraint, you should navigate on the right side menu from the thing type, to the field id and then to the constraint. The constraint caption will be the caption of the field and the operator which will be one of lte, gte, eq, etc.

Once you click on the corresponding menu,

 Note: There is a special case for the field @id which contains the uri where the only constraint allowed is the equality and the caption of the constraint will be Uri

Advanced constraints

Our observers allow constraints for two special types: spatial or location and proximity area field.

Spatial fields

There are 4 constraints on the spatial field location of the resources: three correspond to spatial relation operators Within, Contains and Intersects and the other one is to find the closest resources. All of them depend on a given geometry that can be edited by the map or written directly in the constraint input box. Note that, when one of this constraints is selected, the map edition is enabled and the status is set to

 MapEditingConstraintStatus.png

The contraints based on spatial relations are shown below according to a given gray rectangle:

  • Within: accepts only those things which are within (or contained by) a given geometry (e.g. pentagon)
  • Contains: accepts only those things containing a given geometry (e.g. circle)
  • Intersects: accepts only those things which intersects the given geometry (e.g. white rectangle)
 SpatialRelations.png

The other contraint allows to find the closest resources to a given point. When the given geometry is not a point, the center of the bounding rectangle is used. This constraint accept also two parameters to limit the vertices to retrieve: amount and maximum distance to the point. In both cases, the value 0 allows to remove the limits

 ObserverClosestResourceConstraint.png

Proximity area fields

The other special constraint represent a filter on the field proximity area. This constraint is called "with ancestor" according to the parent-child relation analogy explained here. Given a thing, it allows to filter those resources having it or one of its descendants as proximity area.

 ObserverProximityAreaConstraint.png

The desired ancestor can be chosen with the IconSearch.png or it is possible to write the id directly in the input box.

 Consider the example of the shopping center
 ExampleProximityArea.png
 
 Let us suppose that every customer of the shopping center has its proximity area pointing to the business closest to its position by some sensors placed around the mall.  
 So, for an observer returning customers, 
 - if you choose a business id as ancestor,  you will have in return all the customers that were detected the last time near (or inside) that business.
 - if you choose the level id as ancestor,  you will have all the customers in that floor because they will be at a business having that level id as proximity area
 - if you choose Shopping center as ancestor,  you will have all the customers having one of its business as proximity area, this means all the business pointing to a level which points to the shopping center

Aggregation functions

As described in Timeline view, each property of a thing type can be configured so several old values are kept in order to allow to see different versions of a given instance.

Activity observers

Selecting/Removing observation type

Filters on observation fields

Binding properties

Follower's observers and observers for API=

Observers API

https://<dapurl>/amtech/observersexec/<observeruri>[?params]

Available params:

  • observation: JSON string representation of the observation. May be mandatory depending on the requirements of the observer.
  • resourceStatusFilter: You can specify this parameter with the value valid to only return things that passed validation.
  • limit: Limit for the number of results.
  • noOlderThan: Does not return results older than this date expressed as the number of milliseconds since the epoch (January 1st, 1970, 00:00:00 GMT)
  • offsetDate: This works in conjunction with offsetId. This is expected to be the creation date of the thing indicated with the param offsetId.
  • offsetId: The results will start with the first thing that is older than the record with this ID. This works in conjunction with the offsetDate and you should indicate either both or none of them.
  • tenant: Only return those things available to this tenant.
  • includeCount: Set to true to indicate that we are interested in the total number of results for the execution of this observer. false otherwise.

Target things

targetthings "[{\"thingType\":\"/amtech/linkeddata/types/composite/entity/truck\",\"thingsId\":[\"truck888\"], proximityarea}]" It allows to establish relations between an observation and things instances grouped by type including a proximity area. It offers a tool to resolve thing type instances. From client to server: It can be configured to used by observer to returns just target things instances. The proximityarea is used at the observation enrichment to assigned target things instances with a location. From server to client: Allows to send observations to specific instances. Example m2mBridge leverages this functionality to implement centralized management and send observations.