S.3.2 Low Level Service Platform and Remote System Management Service

ww

w.s

un

shin

ep

roje

ct.

eu

SUNSHINE - Smart UrbaN ServIces for Higher eNergy Efficiency (GA no: 325161)

D6.4 S3.1

Low-Level service platform and

Remote system

management service

http://ec.europa.eu/ict_psp

ww

w.s

un

shin

ep

roje

ct.

eu


Components

The services platform acts as the framework for all software components

that are integrated in SUSNHINE. Base service platform has been

deployed integrating existing solutions e.g. available through other EU

projects.


ww

w.s

un

shin

ep

roje

ct.

eu


DBMS PostgreSQL

• Components are categorized into two big typologies:

• the database management system;

• the server software that implements various standard services.

• In the DBMS, implemented by PostgreSQL, are defined several schemas, in particular:

• the Georepository database, where the geographic vector

data are stored;

• the MD database, that stores the metadata of the geodata;

• the SOS database, used to store all sensor data (energy

consumption, indoor temperature, light poles/lines state data,

weather data);

• the SPS database, that support the Sensor Planning Service;

• the 3D City DB, whose tables host the CityGML models.


ww

w.s

un

shin

ep

roje

ct.

eu


OGC standards

• The OGC standard services are implemented by the following services:

• GeoNetwork, offers CSW service to search and deliver

metadata;

• GeoServer, that exposes WMS services to produce maps, a

WFS-T service to enable editing the attributes of buildings and,

finally, the WPS that is fundamentally a container of processes

that can be used in different points of the system. In particular

the most important process is the “ecomap” calculator. With

no additional effort, GeoServer can implement even simple

WFS and WCS to access directly vector and raster data, but no

need of this kind of service has emerged until now;

• the SWE container; this is a virtual container that is represented

by the shared technology (52°North) of the SOS and SPS server.


ww

w.s

un

shin

ep

roje

ct.

eu


REMOTE SYSTEMMANAGEMENT SERVICE

Service platform: D4.3, D4.6


ww

w.

su

ns

hi

ne

pr

oj

ec

t.

eu


Remote system management /1• Gathers sensors data from lighting network or light points

– energy consumption, instantaneous power, level of dimming, overall lighting time, bulb temperature …

• Stores them in a normalized format into a repository from which they can be retrieved through a standard interface;

• Sends operation instruction to the remote controllers that modify the state of the lamps (dimming level, switching on and off).

• Two channels have been set up to communicate with remote lighting system:– a channel based on the Reverberi technology;

– a channel centred on the SOS standard.

Even the first channel finally relies on the SOS standard because both inbound and outbound data transit through the SOS services. http://www.reverberi.it/


http://www.reverberi.it/

ww

w.

su

ns

hi

ne

pr

oj

ec

t.

eu


Remote system management /2• SOS Server; it’s the server that implements several OGC standard service of the SWE suites. In

particular Sensor Observation Service (SOS) included its transactional profile that allows storing sensor observation into the underlying SOS DB.

• SPS Server; the server that implements the Sensor Planning Service (SPS) that is used as a common interface for tasking the lighting systems.

• SOS DB; it’s a specific database schema implemented inside a PostGIS database and functional to the SOS Server. In its tables are maintained the readings sent by all sensors, including those integrated in the lighting networks.

• SPS DB; in analogy with the SOS DB, this schema hosts the tables needed by the SPS service;

• SPS drivers; they are developed components that allow transforming an SPS request into a specific set of instructions that depends on a particular technology of lighting systems. The drivers include one for transforming a SPS request into a Reverberi instruction and other to talk with the other technologies used by pilots.

• RVRB Synchronizer; Reverberi technology relies on a MS SQL database where all data gathered from the lighting networks are stored and where also the actuating commands are deposited before being sent to the lamps. This component transfers the sensor observations from the RVRV DB to the SOS DB.

• RVRB DB; a MS SQL schema where all the data related to the Reverberi technology are persisted.

• RVRB server; service relying on Reverberi technology that receives readings from the gateways in the remote lighting networks. GPRS connection is used.


ww

w.s

un

shin

ep

roje

ct.

eu


Service components

• Two types of OGC standard services are used in the

communication, depending on the direction of flow:– for writing sensor reading, the SOS service is used, in particular the

operations pertaining to the transactional profile (SOS-T) of the service;

– for actuating commands on the lighting network, the SPS service is used.


ww

w.s

un

shin

ep

roje

ct.

eu


Integration with pilot infrastructures

• Integration with pilots equipped with REVERBERI technology– for the pilots in Bassano, Cles

• Integration with pilot technology in Rovereto


ww

w.s

un

shin

ep

roje

ct.

eu


Service dashboard

http://sunshine.sinergis.it/download/dashboard/


http://sunshine.sinergis.it/download/dashboard/

ww

w.s

un

shin

ep

roje

ct.

eu


Credits

For more training material and courses visit http://www.sunshineproject.eu/solutions/trainingor contact us directly at [email protected]

Sou

rce:

ww

w.u

nio

neg

eom

etri

.co

m

Thank you!

Luca Giovannini

Sinergis Srl

[email protected]


http://www.sunshineproject.eu/solutions/training

mailto:[email protected]

mailto:[email protected]

Date post:	12-Apr-2017
Category:	Technology
Upload:	sunshineproject
View:	436 times
Download:	0 times

S.3.2 Low Level Service Platform and Remote System Management Service

Technology