diff --git a/.saref-repositories.yml b/.saref-repositories.yml
index 871c1dceda5af845de22d430d0736787411a631e..9af79167c9527281ec456a18e1e2c647264f6d04 100644
--- a/.saref-repositories.yml
+++ b/.saref-repositories.yml
@@ -1,4 +1,4 @@
-forge.etsi.org/rep/:
+labs.etsi.org/rep/:
repos:
- saref/saref-core
- saref/saref4syst
diff --git a/diagrams/SAREF4LIFT Signal module-Overview.png b/diagrams/SAREF4LIFT Signal module-Overview.png
deleted file mode 100644
index 7bfd2fceff1fde55d1e09c00abf796bfb6231794..0000000000000000000000000000000000000000
Binary files a/diagrams/SAREF4LIFT Signal module-Overview.png and /dev/null differ
diff --git a/diagrams/SAREF4LIFT figures-Overview.png b/diagrams/SAREF4LIFT figures-Overview.png
deleted file mode 100644
index 56a825b8e08adf5ef97b6e336dfdc7557b700673..0000000000000000000000000000000000000000
Binary files a/diagrams/SAREF4LIFT figures-Overview.png and /dev/null differ
diff --git a/documentation/abstract.md b/documentation/abstract.md
index d672a6b4070ac013b14d8d96c6e081f2390349e0..56082ceab186fa2f77f0fd6de340cb513bb13573 100644
--- a/documentation/abstract.md
+++ b/documentation/abstract.md
@@ -1,4 +1,4 @@
-SAREF4LIFT is an OWL-DL ontology that extends SAREF for the Smart Lifts domain. This SAREF extension is based on a limited set of use cases and existing data models identified within available initiatives that was detailed in previous documents ETSI TR 103 546 [[i.1]](#[i.1]) and ETSI TS 103 735 [[i.2]](#[i.2]). The work conducted in the present document has been developed in the context of the STF 602, which was established with the goal of creating SAREF extension for the domain mentioned above, i.e. Smart Lifts. This work has been developed in close collaboration with the industrial world and alliances.
+SAREF4LIFT is an ontology that extends SAREF for the Smart Lifts domain. This SAREF extension is based on a limited set of use cases and existing data models identified within available initiatives that was detailed in previous documents ETSI TR 103 546 [[i.1]](#[i.1]) and ETSI TS 103 735 [[i.2]](#[i.2]). The development of SAREF4LIFT has been conducted in the context of the STF 602, which was established with the goal of creating SAREF extension for the domain mentioned above, i.e. Smart Lifts. This work has been developed in close collaboration with the industrial world and alliances.
One of the tasks of STF 602 consists of specifying and producing the extension of SAREF for the aforementioned domain based on the requirements resulting from previous initiatives. The related initiatives and use cases considered for the development of the SAREF4LIFT extension are the ones reported previously in ETSI TR 103 546 [[i.1]](#[i.1]) and ETSI TS 103 735 [[i.2]](#[i.2]). Such related initiatives and use cases are not repeated in this document. Hence, the reader can rely on those references for further details.
diff --git a/documentation/description.html b/documentation/description.html
index 9eb7b09f3e630135d065b2e58438a44863e998b4..9fa96a5e5b32afbe86666faafcad50fee907f16f 100644
--- a/documentation/description.html
+++ b/documentation/description.html
@@ -29,7 +29,7 @@
Individuals are denoted by rectangles in which the identifier is underlined.
-
SAREF4LIFT is an OWL-DL ontology and shall be designed using the modularity principle (see ETSI TR 103 510 [i.1]) and can thus be mainly described by the following self-contained knowledge modules:
+
SAREF4LIFT is an OWL-DL ontology and shall be designed using the modularity principle (see ETSI TR 103 510 [i.4]) and can thus be mainly described by the following self-contained knowledge modules:
Systems and connections. This module defines the different systems modelled within a smart lift environment. A system is described as a component virtually isolated from the environment, whose behaviour and interactions with the environment are specifically defined. Systems can be connected to other systems. Connected systems interact in some ways. Systems can also have subsystems. Properties of subsystems somehow contribute to the properties of the supersystem.
Beside the four module described above, the SAREF4LIFT extension defines also two new property types (s4lift:Load and s4lift:Voltage) defining the load in the smart lift car and the electric voltage of some electric power system.
+
Besides the four module described above, the SAREF4LIFT extension defines also two new property types (s4lift:Load and s4lift:Voltage) defining the load in the smart lift car and the electric voltage of some electric power system.
Systems and connections
This module specializes the SAREF4SYST ontology pattern for the Smart Lift domain.
-
A Smart Lift system can be defined as a s4syst:System made by different components. This module defines the subcomponents that are part of Smart Lift. In particular, we denoted two subcomponents: the s4lift:SmartLiftEdgeComponent and the s4lift:SmartLiftEdgeControlUnit. The former is dedicated to the hosting of smart lift additional modules in the case that they are not hosted directly in the s4lift:SmartLiftEdgeControlUnit. An example could be the case of an additional earthquake sensor added after the lift deployment and not controlled by the s4lift:SmartLiftEdgeControlUnit.
+
A Smart Lift system can be defined as a s4syst:System made by different components. This module defines the subcomponents that are part of Smart Lift. In particular, two subcomponents are denoted: the s4lift:SmartLiftEdgeComponent and the s4lift:SmartLiftEdgeControlUnit. The former is dedicated to the hosting of smart lift additional modules in the case that they are not hosted directly in the s4lift:SmartLiftEdgeControlUnit. An example could be the case of an additional earthquake sensor added after the lift deployment and not controlled by the s4lift:SmartLiftEdgeControlUnit.
The latter is the main element of a Smart Lift installation and it is typically associated with the lift control cabinet.
A s4lift:SmartLiftGroup represents the correlation of multiple Smart Lifts Installation and it is supported by the introduction of a Smart Lift Group identifier common each Smart Lifts Installation belonging to the same Smart Lift Group. Such kind of installations usually presents control units connected one each other to coordinate the movement and position of the different lifts, where the common commands (e.g. the call buttons) are given to one of these control units that acts as a principal master and coordinates the other installations or is composed by peer installations that coordinates one each other.
@@ -64,7 +64,7 @@ The latter is the main element of a Smart Lift installation and it is typically
Devices and commands
-
This model specifies the list of commands that we considered relevant for the smart lift domain. We defined six new commands that are subsumed by the saref:Command concept that can be triggered, in turn, by a saref:Function as presented in Figure 3:
+
This model specifies the list of commands that is considered relevant for the smart lift domain. Six new defined commands that are subsumed by the saref:Command concept that can be triggered, in turn, by a saref:Function as presented in Figure 3:
Descendants of the s4lift:Signal inherit the saref:isAbout, and s4lift:conveys properties defining the timestamp when the signal has been generated, the features of interest that the signal is about, and the states or measurements conveyed, respectively.
+
Descendants of the s4lift:Signal inherit the saref:hasTimestamp, saref:isAbout, and s4lift:conveys properties defining the timestamp when the signal has been generated, the features of interest that the signal is about, and the states or measurements conveyed, respectively.
This clause shows different examples of how to instantiate the SAREF4LIFT extension of SAREF.
-
The example presented in Figure 6 demonstrates how to represent information from group name SLIdentification as described in ETSI TS 103 735, Clause 6.2a.
+
The example presented in Figure 6 demonstrates how to represent information from group name SLIdentification as described in ETSI TS 103 735 [i.2], Clause 6.2a.
-
We defined two new global identifiers of respective smart lifts installations (mailto:lift.1415@company1.com and mailto:lift.1416@company1.com) and the global identifier of the associated group (mailto:group.10354@company1.com).
+
There are two new global identifiers of respective smart lifts installations defined (mailto:lift.1415@company1.com and mailto:lift.1416@company1.com) and the global identifier of the associated group (mailto:group.10354@company1.com).
Through the object properties s4lift:isMasterInGroup and s4lift:isSecondaryinGroup it is possible to define the importance level of each identifier.
@@ -13,7 +13,7 @@
-
The example presented in Figure 7 demonstrates how to represent administrative information associated with a s4lift:SmartLiftInstallation as described in ETSI TS 103 735, Clause 6.3.
+
The example presented in Figure 7 demonstrates how to represent administrative information associated with a s4lift:SmartLiftInstallation as described in ETSI TS 103 735 [i.2], Clause 6.3.
The individual mailto:lift.1415@company1.com is subclass of both s4lift:SmartLiftInstallation and s4lift:PassengerAndGoodsPassengerSmartLift concepts in order to specify precisely the type of smart lift. Then, data properties describing the installation are provided and associated with it.
@@ -25,7 +25,7 @@
-
Finally, the example presented in Figure 8 demonstrates how to represent information from group name SLInstallation as described in ETSI TS 103 735, Clause 6.4.
+
Finally, the example presented in Figure 8 demonstrates how to represent information from group name SLInstallation as described in ETSI TS 103 735 [i.2], Clause 6.4.
As shown in Figure 6 and Figure 7, the installation labelled as mailto:lift.1415@company1.com is associated with the respective group and the related administrative information are defined.
Here we show how the load capacity is defined through the definition of a the s4lift:carloadlimit property (linked through the s4lift:hasCarLoadLimit object property) that is associated with the related saref:Measurement (s4lift:CarLoadLimitMeasurement).
Then, both the main power supply and the standard power supply are defined.
[1] ETSI TS 103 264 (V3.1.1) (02-2020): "SmartM2M; Smart Applications; Reference Ontology and oneM2M Mapping".
+
[1] ETSI TS 103 264 (V3.1.1): "SmartM2M; Smart Applications; Reference Ontology and oneM2M Mapping".
+
[2] EN 81-31:2010: "Safety rules for the construction and installation of lifts - Lifts for the transport of goods only - Part 31:Accessible goods only lifts" (produced by CEN).
+
[3] EN 81-72:2020: "Safety rules for the construction and installation of lifts - Particular applications for passenger and goods passenger lifts - Part 72: Firefighters lifts" (produced by CEN).
+
[4] EN 81-20:2020: "Safety rules for the construction and installation of lifts - Lifts for the transport of persons and goods - Part 20: Passenger and goods passenger lifts" (produced by CEN).
+
[5] EN 81-41:2010: "Safety rules for the construction and installation of lifts - Special lifts for the transport of persons and goods - Part 41: Vertical lifting platforms intended for use by persons with impaired mobility" (produced by CEN).
+
[6] IETF RFC 3966: "The tel URI for Telephone Numbers".
+
[7] EN 81-28:2018+AC:2019: "Safety rules for the construction and installation of lifts - Lifts for the transport of persons and goods - Part 28: Remote alarm on passenger and goods passenger lifts" (produced by CEN).
+
[8] ETSI TS 145 008: "Digital cellular telecommunications system (Phase 2+) (GSM); GSM/EDGE Radio subsystem link control (3GPP TS 45.008)".
Informative references
-
[i.1] ETSI TR 103 546 (V1.1.1) (2020-04): "SmartM2M; Requirements & Feasibility study for Smart Lifts in IoT".
diff --git a/documentation/examples.html b/documentation/examples.html
index 5a15f92b9c8bbc168ed0bdfb5cfcfd2f0658ae73..216f94c8a6b60117d01dc10635e8b25588831029 100644
--- a/documentation/examples.html
+++ b/documentation/examples.html
@@ -1,8 +1,8 @@