Ci-dessous, les différences entre deux révisions de la page.
Les deux révisions précédentes Révision précédente Prochaine révision | Révision précédente Dernière révision Les deux révisions suivantes | ||
cours:mit_2018_2019 [2019/02/05 08:04] tigli [Session 6 : Web Service for Devices : Discovery, Availability Management and Dynamic software composition] |
cours:mit_2018_2019 [2019/02/05 16:36] tigli [Session 7 : Advanced MIT : SWoT (Semantic Web of Things), middleware and semantic composition] |
||
---|---|---|---|
Ligne 181: | Ligne 181: | ||
* {{:cours:2017-2018_upnp_dpws.pdf|Slides of the Lecture on Web Service for Devices standards}} | * {{:cours:2017-2018_upnp_dpws.pdf|Slides of the Lecture on Web Service for Devices standards}} | ||
- | **Lab : Create your own UPnP device (with some C# programming)** | + | **Lab : UPnP Manipulations without programming ** |
- | * {{:cours:2017-2018_tutorial_6_wsd_upnp.pdf|Tutorial on Web Services for Devices (UPnP)}} | + | |
- | * Tutorial Videos : [[https://www.youtube.com/watch?v=MnMaz5WYsb0|video1]] & [[https://www.youtube.com/watch?v=4UMJhMJMiUY|Video2]] | + | |
- | **Lab continue with Node-RED** | + | * Install [[https://www.meshcommander.com/upnptools|Developper Tools for UPnP Technologies]] |
- | * After creating you own UpnP device, try to use it with Node-RED. First, you need to install node-red-upnp-control-point and node-red-contrib-upnp. You can find them at the following address: | + | * "Network Light" simulate an UPnP device. |
+ | * Device Spy Tool allow to interact with any UPnP device in your Local Network | ||
+ | * Device Sniffer allow to spy the UPnP protocols exchange | ||
+ | // Exercice : // | ||
+ | * Run a "Network Light" and interact with if thanks to the Device Spy Tool. How many services are available ?. What are both kinds of software communication patterns | ||
+ | * Find the description of the "Network Light" Device/Services. What is the format of this description ? Can you then imagine how the Device Spy create an interface for each discovered device on the fly ? | ||
+ | * Thanks to Device Sniffer, you can observe the different messages between Clients (UPnP control point) and Servers (UPnP Devices). What are the messages corresponding to SSDP ? What is the HTTP-like protocol that carry this kind of message? | ||
+ | |||
+ | **Lab UPnP with Node-RED** | ||
+ | * After creating you own UpnP device, try to use it with Node-RED. First, you need to install node-red-upnp-control-point and node-red-contrib-upnp. You can find them at the following address: http://trolen.polytech.unice.fr/cours/mit/ | ||
* With the samples in node-red-contrib-upnp package, try to discover the UPnP device | * With the samples in node-red-contrib-upnp package, try to discover the UPnP device | ||
* Then, try to interact with them, send an action to a UPnP device and subscribe to changes on the device. | * Then, try to interact with them, send an action to a UPnP device and subscribe to changes on the device. | ||
- | **Lab : UPnP Manipulations** | + | **Lab : Create your own UPnP device (with some C# programming)** |
- | + | * {{:cours:2017-2018_tutorial_6_wsd_upnp.pdf|Tutorial on Web Services for Devices (UPnP)}} | |
- | * Use "UPnP Light" to simulate an UPnP device | + | * Tutorial Videos : [[https://www.youtube.com/watch?v=MnMaz5WYsb0|video1]] & [[https://www.youtube.com/watch?v=4UMJhMJMiUY|Video2]] |
- | * Then manipulate de light with Device Spy Tool | + | |
- | * Look at the | + | |
+ | | ||
==== Session 7 : Advanced MIT : SWoT (Semantic Web of Things), middleware and semantic composition ==== | ==== Session 7 : Advanced MIT : SWoT (Semantic Web of Things), middleware and semantic composition ==== | ||
Ligne 202: | Ligne 208: | ||
||| | ||| | ||
- | ** Lecturer : G. Rocher, GFI Informatique ** | + | Lecturers : G. Rocher, GFI Informatique - J.Y. Tigli |
* {{:cours:swot.pdf| Slides of the Lecture on Semantic Web of Things }} | * {{:cours:swot.pdf| Slides of the Lecture on Semantic Web of Things }} | ||
Ligne 217: | Ligne 223: | ||
The mission of SOFIA project is to create a semantic interoperability platform which enables and maintains cross-industry interoperability which is a platform for new services. Concurrently the solution will foster innovation while maintaining value of existing legacy multi-vendor interoperability platform. | The mission of SOFIA project is to create a semantic interoperability platform which enables and maintains cross-industry interoperability which is a platform for new services. Concurrently the solution will foster innovation while maintaining value of existing legacy multi-vendor interoperability platform. | ||
- | * Industrial products from SOFIA : ** SMALL at Tecnalia ** | + | * Industrial products from SOFIA : ** SMALL at Tecnalia ** |
- | * Industrial products from SOFIA : ** SOFIA 2 at Indra ** | + | * Industrial products from SOFIA : ** SOFIA 2 at Indra ** |
+ | |||
+ | * [[https://fiware-orion.readthedocs.io/en/master/index.html|FiWare]] | ||
+ | * OneM2M | ||
{{ :cours:etsi-onem2m.png?150|}} | {{ :cours:etsi-onem2m.png?150|}} |