https://air.imag.fr/api.php?action=feedcontributions&user=Jonathan.Lemoine&feedformat=atomair - User contributions [en]2024-03-28T23:39:15ZUser contributionsMediaWiki 1.35.13https://air.imag.fr/index.php?title=EA2013&diff=12614EA20132013-10-07T06:25:41Z<p>Jonathan.Lemoine: /* Sujets restants */</p>
<hr />
<div>[[EA2012|<< Etudes 2012]] [[EA2014|Etudes 2014 >>]]<br />
<br />
<br />
=Etudes d'approfondissement=<br />
* Enseignants: Georges-Pierre Bonneau, Didier Donsez<br />
* UE/Module: EAM (HPRJ9R6B) et EAR (HPRJ9R4B) en RICM5<br />
<br />
<br />
L'objectif des études approfondissement est de réaliser un travail de synthèse et d’évaluation sur une technologie / spécification / tendance<br />
<br />
Dans votre futur vie d'ingénieur, vous aurez à d'une part, vous former par vous-même sur une technologie émergente et d'autre part à réaliser une veille technologique (et stratégique) par rapport à votre entreprise et projet.<br />
Il s'agira de réaliser<br />
* le positionnement par rapport au marché<br />
* d'être critique<br />
<br />
Votre synthèse fait l'objet d'une présentation orale convaincante devant un auditoire (dans le futur, vos collègues, vos chefs ou vos clients) avec des transparents et un discours répété.<br />
Pour finir de convaincre (Saint Thomas), vous ferez la présentation d'une démonstration.<br />
<br />
[[File:presentation-EA-RICM5-1314.pdf|transparents d'introduction à l'UE]]<br />
<br />
<br />
=Planning des séances=<br />
<br />
[[Image:PlanningEA2013.jpg|center|600px|Planning]]<br />
<br />
==Séance Ven. 04/10==<br />
* Enseignants: Georges-Pierre Bonneau, Didier Donsez<br />
* Présentation des sujets<br />
* Choix des sujets<br />
<br />
==Séance Ven. 11/10==<br />
* Enseignants: Georges-Pierre Bonneau, Didier Donsez<br />
<br />
# Outils de supervision : Nagios, [[Shinken]] (Jean-François Bianco)<br />
# [[Synthèse Vocale]] (Lofti Manseur)<br />
# [[Open Data]] & Open Data Protocol ([[OData]]) (Simon Planes)<br />
<br />
==Séance Ven. 18/10==<br />
* Enseignants: Georges-Pierre Bonneau<br />
<br />
# [[SoLoMo : Social, Localisation et Mobilité]] (Nicolas Afonso)<br />
# [[Rules engines]], [[Event Condition Action]] (ECA) et [[Complex Event Processing]] (CEP) (Morgan Bidois)<br />
# Principes et Canevas de programmation événementiels : [[Node.js]], [[Twisted]], [[Nginx]], ... (Thomas Nunes)<br />
<br />
<br />
<br />
==Séance Ven. 25/10==<br />
* Enseignants: Georges-Pierre Bonneau<br />
<br />
# ([[Vandalisme dans les Wiki]]) (Cedric Jordan)<br />
# Modèles de distribution par tuple-space : LINDA, JavaSpace, Terracotta, LIME, tinyLIME : démonstration<br />
# [[Social Data Engineering]] (Walid Bibi)<br />
# Visual Data Analytics (Mame Daba Diouf)<br />
# (Benchmarks Web : démonstration de TPCW sur les conteneurs Tomcat, Jetty, Grizzly en utilisant l'injecteur de charge Apache JMeter.) (Xu Feng)<br />
<br />
<br />
<br />
==Séance Ven. 08/11==<br />
* Enseignants: Didier Donsez<br />
# Environnements de simulation de monde virtuel 2D, 2.5D, 3D : [[Siafu]], [[Unity]], ... (Elisa Martinez)<br />
# Environnement de synthèse sonore : [[Max/MSP]], ... (Pierre Lartigue)<br />
# [[Vee-jing]] Techniques de mixage de vidéo en temps réel (Rebecca Poustis)<br />
# [[Big Data]] & le paradigme [[Map Reduce]] : démonstration avec [[Apache Hadoop]], [[Apache Hive]] et [[Apache Mahout]] (Marion Dalle)<br />
<br />
==Séance Ven. 15/11==<br />
* Enseignants: Didier Donsez<br />
# Entreprise Portals : Liferay, Pluto, JSR ??? (Laurene Guelorget)<br />
# Le langage et le canevas Web [[Dart]] (Nicolas Husson)<br />
# Xeon Phi (Remi Piotaix)<br />
# (Complex) Event Stream Processing : démonstration de Twitter Storm (Jonathan Lemoine)<br />
<br />
=Sujets restants=<br />
# Solutions Publish-Subscribe : Event Admin, [[ROS]], AMQP (RabbitMQ...), [[MQTT]], [[XMPP]], UPnP, PubNub, [[PubSubHubbub]], Siena ... (?)<br />
# BPM : démonstration de l'outil OW2 Bonita sur le processus de suivi des stages (?)</div>Jonathan.Lemoinehttps://air.imag.fr/index.php?title=EA2013&diff=12613EA20132013-10-07T06:25:18Z<p>Jonathan.Lemoine: /* Séance Ven. 15/11 */</p>
<hr />
<div>[[EA2012|<< Etudes 2012]] [[EA2014|Etudes 2014 >>]]<br />
<br />
<br />
=Etudes d'approfondissement=<br />
* Enseignants: Georges-Pierre Bonneau, Didier Donsez<br />
* UE/Module: EAM (HPRJ9R6B) et EAR (HPRJ9R4B) en RICM5<br />
<br />
<br />
L'objectif des études approfondissement est de réaliser un travail de synthèse et d’évaluation sur une technologie / spécification / tendance<br />
<br />
Dans votre futur vie d'ingénieur, vous aurez à d'une part, vous former par vous-même sur une technologie émergente et d'autre part à réaliser une veille technologique (et stratégique) par rapport à votre entreprise et projet.<br />
Il s'agira de réaliser<br />
* le positionnement par rapport au marché<br />
* d'être critique<br />
<br />
Votre synthèse fait l'objet d'une présentation orale convaincante devant un auditoire (dans le futur, vos collègues, vos chefs ou vos clients) avec des transparents et un discours répété.<br />
Pour finir de convaincre (Saint Thomas), vous ferez la présentation d'une démonstration.<br />
<br />
[[File:presentation-EA-RICM5-1314.pdf|transparents d'introduction à l'UE]]<br />
<br />
<br />
=Planning des séances=<br />
<br />
[[Image:PlanningEA2013.jpg|center|600px|Planning]]<br />
<br />
==Séance Ven. 04/10==<br />
* Enseignants: Georges-Pierre Bonneau, Didier Donsez<br />
* Présentation des sujets<br />
* Choix des sujets<br />
<br />
==Séance Ven. 11/10==<br />
* Enseignants: Georges-Pierre Bonneau, Didier Donsez<br />
<br />
# Outils de supervision : Nagios, [[Shinken]] (Jean-François Bianco)<br />
# [[Synthèse Vocale]] (Lofti Manseur)<br />
# [[Open Data]] & Open Data Protocol ([[OData]]) (Simon Planes)<br />
<br />
==Séance Ven. 18/10==<br />
* Enseignants: Georges-Pierre Bonneau<br />
<br />
# [[SoLoMo : Social, Localisation et Mobilité]] (Nicolas Afonso)<br />
# [[Rules engines]], [[Event Condition Action]] (ECA) et [[Complex Event Processing]] (CEP) (Morgan Bidois)<br />
# Principes et Canevas de programmation événementiels : [[Node.js]], [[Twisted]], [[Nginx]], ... (Thomas Nunes)<br />
<br />
<br />
<br />
==Séance Ven. 25/10==<br />
* Enseignants: Georges-Pierre Bonneau<br />
<br />
# ([[Vandalisme dans les Wiki]]) (Cedric Jordan)<br />
# Modèles de distribution par tuple-space : LINDA, JavaSpace, Terracotta, LIME, tinyLIME : démonstration<br />
# [[Social Data Engineering]] (Walid Bibi)<br />
# Visual Data Analytics (Mame Daba Diouf)<br />
# (Benchmarks Web : démonstration de TPCW sur les conteneurs Tomcat, Jetty, Grizzly en utilisant l'injecteur de charge Apache JMeter.) (Xu Feng)<br />
<br />
<br />
<br />
==Séance Ven. 08/11==<br />
* Enseignants: Didier Donsez<br />
# Environnements de simulation de monde virtuel 2D, 2.5D, 3D : [[Siafu]], [[Unity]], ... (Elisa Martinez)<br />
# Environnement de synthèse sonore : [[Max/MSP]], ... (Pierre Lartigue)<br />
# [[Vee-jing]] Techniques de mixage de vidéo en temps réel (Rebecca Poustis)<br />
# [[Big Data]] & le paradigme [[Map Reduce]] : démonstration avec [[Apache Hadoop]], [[Apache Hive]] et [[Apache Mahout]] (Marion Dalle)<br />
<br />
==Séance Ven. 15/11==<br />
* Enseignants: Didier Donsez<br />
# Entreprise Portals : Liferay, Pluto, JSR ??? (Laurene Guelorget)<br />
# Le langage et le canevas Web [[Dart]] (Nicolas Husson)<br />
# Xeon Phi (Remi Piotaix)<br />
# (Complex) Event Stream Processing : démonstration de Twitter Storm (Jonathan Lemoine)<br />
<br />
=Sujets restants=<br />
# Solutions Publish-Subscribe : Event Admin, [[ROS]], AMQP (RabbitMQ...), [[MQTT]], [[XMPP]], UPnP, PubNub, [[PubSubHubbub]], Siena ... (?)<br />
# (Complex) Event Stream Processing : démonstration de Twitter [[Storm]] (?)<br />
# BPM : démonstration de l'outil OW2 Bonita sur le processus de suivi des stages (?)</div>Jonathan.Lemoinehttps://air.imag.fr/index.php?title=Proj-2012-2013-CaveVinNFC&diff=10772Proj-2012-2013-CaveVinNFC2013-04-10T14:04:31Z<p>Jonathan.Lemoine: /* Appendice */</p>
<hr />
<div>=Description=<br />
A smartphone application and a web application which allows the owner to manage his cellar. Add or remove a bottle, ask for information about a bottle, the humidity and the temperature of the cellar.<br />
== Tutors == <br />
* Sophie Chareyron <br />
* Fréderic Rousseau<br />
* Didier Donsez<br />
== Students ==<br />
* Jonathan Lemoine<br />
* Nicolas Husson<br />
= Journal =<br />
== Week 1 (14/01 -> 20/01) ==<br />
* Discovery of the project, the technologies we will use.<br />
* Discussion about the services our application will provide.<br />
* We met Sophie Chareyron.<br />
== Week 2 (21/01 -> 27/01) ==<br />
* Didier Donsez lend us some materials :<br />
: - computer tablette<br />
: - Intel-Inside NFC Android smartphone<br />
: - Touchatag<br />
: - Nfc usb key STM3711<br />
: - NFC tags<br />
* We met Frederic Rousseau and discuss with him about the main requirements and proposed ideas that we had.<br />
* We used the application "Tags" on the smartphone in order to read and write on NFC tags.<br />
== Week 3 (28/01 -> 03/02) ==<br />
* We wrote the SRS (first version).<br />
* We begin some diagram (activity, use-case, sequencement and context)<br />
* We install libNFC and dependencies and also some drivers to recognize the usb key.<br />
* We manage to read a tag from the computer with the usb key (in hexa) and also corrupt a tag writing on an no-rewritable area.<br />
== Week 4 (04/02 -> 10/02) ==<br />
* We continue the conception of diagrams (using a draw software).<br />
* We complete the SRS.<br />
* Study of the in header NDEF.<br />
* We think about used the libNFC code via Java using JNI and JNA solutions (we didn't make it).<br />
* We also think about the technology that we will used for the smartphone (phonegap or android) and we might be use phonegap (we are waiting for the conference on phonegap). <br />
* We try to use phonegap.<br />
<br />
== Week 5 (11/02 -> 17/02) ==<br />
* We continue the diagrams (we end the activity diagram, usecase diagram, the sequence diagram and we began an interface diagram). <br />
* Learn about phonegap and try to read and write a nfcTag with a smartphone<br />
== Week 6 (18/02 -> 24/02) ==<br />
* Succeed to read a nfcTag thanks to https://github.com/don<br />
<br />
== Week 7 (25/01 -> 3/03) ==<br />
Break<br />
== Week 8 (04/03 -> 10/03) ==<br />
* End the realisation of the diagram ( uml, class and object )<br />
* Begin the realisation of the IHM on the smartphone. <br />
== Week 9 (11/03 -> 17/03) ==<br />
* Succeed to write and read a nfcTag<br />
== Week 10 (18/03 -> 24/03) ==<br />
* Begin the creation of an interface <br />
* Study tutorial on Nodejs<br />
== Week 11 (25/03 -> 31/03) ==<br />
* Read and write on the tag with the JSON format<br />
* Search on MongoDB, Nodejs and Heroku<br />
<br />
<br />
=Diagram =<br />
http://air.imag.fr/mediawiki/index.php/Proj-2012-2013-CaveVinNFC/Diagramme<br />
= Download =<br />
libNFC : library which allow to communicate from your computer to a nfc tag through a nfc usb key.<br />
http://code.google.com/p/libnfc/downloads/list<br />
<br />
= Appendice =<br />
SRS : http://air.imag.fr/mediawiki/index.php/Proj-2012-2013-CaveVinNFC/SRS <br><br />
Source du projet : https://github.com/bigoud/e-cave/tree/master/FirstUi <br><br />
Presentation.pdf : https://github.com/bigoud/e-cave/blob/master/FirstUi/Presentation.pdf <br><br />
Rapport.pdf : https://github.com/bigoud/e-cave/blob/master/rapportE-cave.pdf</div>Jonathan.Lemoinehttps://air.imag.fr/index.php?title=Proj-2012-2013-CaveVinNFC&diff=10736Proj-2012-2013-CaveVinNFC2013-04-10T12:04:27Z<p>Jonathan.Lemoine: /* Appendice */</p>
<hr />
<div>=Description=<br />
A smartphone application and a web application which allows the owner to manage his cellar. Add or remove a bottle, ask for information about a bottle, the humidity and the temperature of the cellar.<br />
== Tutors == <br />
* Sophie Chareyron <br />
* Fréderic Rousseau<br />
* Didier Donsez<br />
== Students ==<br />
* Jonathan Lemoine<br />
* Nicolas Husson<br />
= Journal =<br />
== Week 1 (14/01 -> 20/01) ==<br />
* Discovery of the project, the technologies we will use.<br />
* Discussion about the services our application will provide.<br />
* We met Sophie Chareyron.<br />
== Week 2 (21/01 -> 27/01) ==<br />
* Didier Donsez lend us some materials :<br />
: - computer tablette<br />
: - Intel-Inside NFC Android smartphone<br />
: - Touchatag<br />
: - Nfc usb key STM3711<br />
: - NFC tags<br />
* We met Frederic Rousseau and discuss with him about the main requirements and proposed ideas that we had.<br />
* We used the application "Tags" on the smartphone in order to read and write on NFC tags.<br />
== Week 3 (28/01 -> 03/02) ==<br />
* We wrote the SRS (first version).<br />
* We begin some diagram (activity, use-case, sequencement and context)<br />
* We install libNFC and dependencies and also some drivers to recognize the usb key.<br />
* We manage to read a tag from the computer with the usb key (in hexa) and also corrupt a tag writing on an no-rewritable area.<br />
== Week 4 (04/02 -> 10/02) ==<br />
* We continue the conception of diagrams (using a draw software).<br />
* We complete the SRS.<br />
* Study of the in header NDEF.<br />
* We think about used the libNFC code via Java using JNI and JNA solutions (we didn't make it).<br />
* We also think about the technology that we will used for the smartphone (phonegap or android) and we might be use phonegap (we are waiting for the conference on phonegap). <br />
* We try to use phonegap.<br />
<br />
== Week 5 (11/02 -> 17/02) ==<br />
* We continue the diagrams (we end the activity diagram, usecase diagram, the sequence diagram and we began an interface diagram). <br />
* Learn about phonegap and try to read and write a nfcTag with a smartphone<br />
== Week 6 (18/02 -> 24/02) ==<br />
* Succeed to read a nfcTag thanks to https://github.com/don<br />
<br />
== Week 7 (25/01 -> 3/03) ==<br />
Break<br />
== Week 8 (04/03 -> 10/03) ==<br />
* End the realisation of the diagram ( uml, class and object )<br />
* Begin the realisation of the IHM on the smartphone. <br />
== Week 9 (11/03 -> 17/03) ==<br />
* Succeed to write and read a nfcTag<br />
== Week 10 (18/03 -> 24/03) ==<br />
* Begin the creation of an interface <br />
* Study tutorial on Nodejs<br />
== Week 11 (25/03 -> 31/03) ==<br />
* Read and write on the tag with the JSON format<br />
* Search on MongoDB, Nodejs and Heroku<br />
<br />
<br />
=Diagram =<br />
http://air.imag.fr/mediawiki/index.php/Proj-2012-2013-CaveVinNFC/Diagramme<br />
= Download =<br />
libNFC : library which allow to communicate from your computer to a nfc tag through a nfc usb key.<br />
http://code.google.com/p/libnfc/downloads/list<br />
<br />
= Appendice =<br />
SRS : http://air.imag.fr/mediawiki/index.php/Proj-2012-2013-CaveVinNFC/SRS <br><br />
Source du projet : https://github.com/bigoud/e-cave/tree/master/FirstUi <br><br />
Presentation.pdf : https://github.com/bigoud/e-cave/blob/master/FirstUi/Presentation.pdf</div>Jonathan.Lemoinehttps://air.imag.fr/index.php?title=Proj-2012-2013-CaveVinNFC&diff=10735Proj-2012-2013-CaveVinNFC2013-04-10T12:00:42Z<p>Jonathan.Lemoine: /* Appendice */</p>
<hr />
<div>=Description=<br />
A smartphone application and a web application which allows the owner to manage his cellar. Add or remove a bottle, ask for information about a bottle, the humidity and the temperature of the cellar.<br />
== Tutors == <br />
* Sophie Chareyron <br />
* Fréderic Rousseau<br />
* Didier Donsez<br />
== Students ==<br />
* Jonathan Lemoine<br />
* Nicolas Husson<br />
= Journal =<br />
== Week 1 (14/01 -> 20/01) ==<br />
* Discovery of the project, the technologies we will use.<br />
* Discussion about the services our application will provide.<br />
* We met Sophie Chareyron.<br />
== Week 2 (21/01 -> 27/01) ==<br />
* Didier Donsez lend us some materials :<br />
: - computer tablette<br />
: - Intel-Inside NFC Android smartphone<br />
: - Touchatag<br />
: - Nfc usb key STM3711<br />
: - NFC tags<br />
* We met Frederic Rousseau and discuss with him about the main requirements and proposed ideas that we had.<br />
* We used the application "Tags" on the smartphone in order to read and write on NFC tags.<br />
== Week 3 (28/01 -> 03/02) ==<br />
* We wrote the SRS (first version).<br />
* We begin some diagram (activity, use-case, sequencement and context)<br />
* We install libNFC and dependencies and also some drivers to recognize the usb key.<br />
* We manage to read a tag from the computer with the usb key (in hexa) and also corrupt a tag writing on an no-rewritable area.<br />
== Week 4 (04/02 -> 10/02) ==<br />
* We continue the conception of diagrams (using a draw software).<br />
* We complete the SRS.<br />
* Study of the in header NDEF.<br />
* We think about used the libNFC code via Java using JNI and JNA solutions (we didn't make it).<br />
* We also think about the technology that we will used for the smartphone (phonegap or android) and we might be use phonegap (we are waiting for the conference on phonegap). <br />
* We try to use phonegap.<br />
<br />
== Week 5 (11/02 -> 17/02) ==<br />
* We continue the diagrams (we end the activity diagram, usecase diagram, the sequence diagram and we began an interface diagram). <br />
* Learn about phonegap and try to read and write a nfcTag with a smartphone<br />
== Week 6 (18/02 -> 24/02) ==<br />
* Succeed to read a nfcTag thanks to https://github.com/don<br />
<br />
== Week 7 (25/01 -> 3/03) ==<br />
Break<br />
== Week 8 (04/03 -> 10/03) ==<br />
* End the realisation of the diagram ( uml, class and object )<br />
* Begin the realisation of the IHM on the smartphone. <br />
== Week 9 (11/03 -> 17/03) ==<br />
* Succeed to write and read a nfcTag<br />
== Week 10 (18/03 -> 24/03) ==<br />
* Begin the creation of an interface <br />
* Study tutorial on Nodejs<br />
== Week 11 (25/03 -> 31/03) ==<br />
* Read and write on the tag with the JSON format<br />
* Search on MongoDB, Nodejs and Heroku<br />
<br />
<br />
=Diagram =<br />
http://air.imag.fr/mediawiki/index.php/Proj-2012-2013-CaveVinNFC/Diagramme<br />
= Download =<br />
libNFC : library which allow to communicate from your computer to a nfc tag through a nfc usb key.<br />
http://code.google.com/p/libnfc/downloads/list<br />
<br />
= Appendice =<br />
SRS : http://air.imag.fr/mediawiki/index.php/Proj-2012-2013-CaveVinNFC/SRS <br><br />
Source du projet : https://github.com/bigoud/e-cave/tree/master/FirstUi</div>Jonathan.Lemoinehttps://air.imag.fr/index.php?title=Proj-2012-2013-CaveVinNFC&diff=8409Proj-2012-2013-CaveVinNFC2013-02-11T13:46:47Z<p>Jonathan.Lemoine: /* 1.5 Overview of the remainder of the document */</p>
<hr />
<div>=1. Introduction=<br />
==1.1 Purpose of the requirements document==<br />
The purpose of the document is to explain how we will manage our project, the different steps of the conception. Endly, the realisation.<br />
==1.2 Scope of the product==<br />
The product aims people who have a wine cellar and want to control the humidity and the temperature. We will also provide an application which permits the user to know at every time the telemetry and the contain of his cellar.<br />
==1.3 Definitions, acronyms and abbreviations==<br />
Wine Cellar : device used to automatically control the telemetry in a room designed to stock wine <br\><br />
NFC : http://en.wikipedia.org/wiki/Near_field_communication <br\><br />
Mifare : http://en.wikipedia.org/wiki/MIFARE<br\><br />
RFID : http://en.wikipedia.org/wiki/RFID<br />
<br />
==1.4 References==<br />
http://www.libnfc.org/community : Website of the open source community for nfc <br\><br />
http://www.developer.nokia.com/Community/Wiki/Understanding_NFC_Data_Exchange_Format_%28NDEF%29_messages : Website concerning the data format exchange NDEF messages <br\><br />
http://www.dconstructing.com/2011/02/26/encoding-a-uri-in-an-nfc-ndef-payload/ : Website explaining how encoding an uri in an NFC NDEF payload<br />
<br />
==1.5 Overview of the remainder of the document==<br />
The remainder of this document will present the technical characteristics of the wine cellar, and our guideline to develop it.<br />
<br />
=2. General description=<br />
==2.1 Product perspective==<br />
A smartphone application and a web application which allows the owner to manage his cellar. Add or remove a bottle, ask for information about a bottle, the humidity and the temperature of the cellar.<br />
<br />
==2.2 Product functions==<br />
The functions of our project are mainly to :<br />
::- Consult the humidity and temperature of his cellar<br\><br />
::- Consult the quantity of bottles in his cellar thanks to the database stored on a server from a website or an application<br\><br />
::- Be able to add/remove a bottle or a box of bottles<br\><br />
::- An alarm is send to the proprietary of the cellar in case of troubles (using email, sms, notification...) : intrusion, deviations of temperature or humidity<br />
==2.3 User characteristics==<br />
Like wine ;)<br\><br />
Have a wine cellar device<br\><br />
Have a NFC equipment (reader, writer, tags)<br\><br />
==2.4 General constraints==<br />
An Internet access is required<br\><br />
A smartphone as NFC equipment is recommended<br />
==2.5 Assumptions and dependencies==<br />
http://air.imag.fr/mediawiki/index.php/Commande_adaptative_pour_la_r%C3%A9gulation_de_temp%C3%A9rature_et_d%E2%80%99hygrom%C3%A9trie_d%E2%80%99une_cave_%C3%A0_vin<br />
=3.Specific requirements, covering functional, non-functional and interface requirements=<br />
* document external interfaces,<br />
* describe system functionality and performance<br />
* specify logical database requirements,<br />
* design constraints,<br />
* emergent system properties and quality characteristics.<br />
<br />
==3.1 Requirement X.Y.Z (in Structured Natural Language)==<br />
'''Function''' :<br\><br />
Monitor a wine cellar<br\><br\><br />
'''Description''' :<br\><br />
An application on smartphone or a website <br\><br\><br />
'''Inputs''' :<br\><br />
NFC tags<br\><br\><br />
'''Source''' :<br\><br />
Web<br\><br\><br />
'''Outputs''' :<br\><br />
Monitoring<br\><br\><br />
'''Destination''' :<br\><br />
Wine cellar owners<br\><br\><br />
'''Action''' :<br\><br />
Must be able to add/remove a bottle<br\><br />
Must be able to consult the state of his cellar :<br />
: Telemetry : temperature, humidity, opening<br\><br />
: Inventory : amount of bottles with datas on each one<br\><br />
: Local and distant access<br\><br />
Must inform the user in case of troubles<br\><br />
May remote control the telemetry<br\> <br />
Shall be user-friendly<br />
<br />
* Natural language sentences (with MUST, MAY, SHALL)<br />
* Graphical Notations : UML Sequence w/o collaboration diagrams, Process maps, Task Analysis (HTA, CTT)<br />
* Mathematical Notations<br />
* Tabular notations for several (condition --> action) tuples<br />
<br />
'''Non functional requirements''':<br />
<br />
'''Pre-condition''' :<br\><br />
Have the cellar wine device <br\><br\><br />
'''Post-condition''' :<br\><br />
Regularly monitor his cellar<br\><br\><br />
'''Side-effects''' :<br\><br />
Alcoholism :) <br />
=4. Product evolution=<br />
Remote control the cellar in case of problem.<br\><br />
Add more informations about bottles.<br />
Read bar code in order to fill the the fields automatically when you want to add a bottle.<br />
<br />
=5. Appendices=<br />
<br />
=6. Index=</div>Jonathan.Lemoine