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Project SLOPE1
WP 1 Definition of requirements and system analysis
WP1. Definition of Requirements and System Architecture
Mikkeli 02-04 July 2014
Task 1.1 - Users and System requirements ITENE Partners: GRAPHITECH, CNR, KESLA, COAST, MHG, BOKU, FLY, GRE, TRE
Task 1.2 Hardware and equipment definition KESLA -> GRAPHITECH Partners: CNR, COAST, MHG, BOKU, FLY, GRE, ITENE
Task 1.3 Human Machine Interface (HMI) definition GRAPHITECH Partners: KESLA, MHG, GRE, TRE, ITENE
Task 1.4 Mountainous Forest inventory data model definition CNR Partners: GRAPHITECH, COAST, MHG, BOKU, FLY, GRE, TRE
Task 1.5 - System Architecture - MHG Partners: GRAPHITECH, FLY, TRE, ITENE
WP1. Objectives
Mikkeli 02-04 July 2014
Identify the users and specifically their needs and requirements. Define processes Detail the data and metadata model covering the use of SLOPE Define the hardware, equipment, sensors and mobile devices Define the Human Machine Interface requirements Define the system architecture to be used Define the technical requirements
WP1 Orginal timeline and WP1 situation M01-M06
January February March April May June
ITENE: 100%Task 1.1: D1.01UsersRequirementsReportKESLA: 80%Task 1.2: D1.04TechnicalRequirementsReport
Project meeting in
Mikkeli
GRAPHITECH: 80%Task 1.3: D1.02HumanMachine Interface
CNR: 80%Task 1.4: D1.03Data and Meta Data modelReportMHG: 60%Task 1.5: D1.05System ArchitectureSpecifications
Mikkeli 02-04 July 2014
WP1 And how did it go M01-M09
Jan Feb Mar Apr May Jun Jul Aug Sep
ITENE:Task 1.1: D1.01UsersRequirementsReport
Project meeting in
Mikkeli
GRAPHITECH:Task 1.3: D1.02HumanMachine Interface
MHG:Task 1.5: D1.05System ArchitectureSpecifications
Mikkeli 02-04 July 2014
CNR:Task 1.4: D1.03Data and Meta Data modelReport
KESLA GRAPHITECH :Task 1.2: D1.04TechnicalRequirementsReport
Kick-off Meeting 8-9/jan/2014
WP1 Deliverables
D1.01 Users Requirements Report Specifies user requirements, roles, groups and use cases
D1.04 Technical Requirements Report Specifies hardware and technical requirements for the
hardware that shall be used in the project. D1.02 Human Machine Interface
Specifies user interfaces that will be in slope platform D1.03 Data and Meta Data model Report
Specifies the data and meta data that will be in slopeplatform
D1.05 System Architecture Specifications Sepcifies technical architecture of the platform (high level
specification). Describes partner applications and technologies.
Kick-off Meeting 8-9/jan/2014
WP1 Problems
One partner (Kesla) left from consortium. Kesla was Task 1.2 leader and contributor in many WP1 tasks.
Feedback and communication delays affected deliverable finalization on time
Kick-off Meeting 8-9/jan/2014
WP1 Summary
All deliverables can be found from 04_Final_Deliverables folder on Dropbox
All deliverables finalized correctly Objectives reached WP1 was late but finalized correctly
Thank you! Lets move to task leader presentations
TASK 1.4Mountainous Forest inventory
data model definition
Work Package 1: Definition of requirements and system analysis
Work Package 1: Definition of Requirements and
System Analysis
Starting : January 2014Ending: June 2014
Objectives
Identify the targeted users and specifically their needs and requirements. Define state of the art processes for planning, managing and assessing harvesting
operations and supply chains in mountainous areas. Define a comprehensive set of information to support the implementation of more
timely decisions, and improve the quality of decisions Detail the data and metadata model covering the use of SLOPE Define the hardware, equipment, sensors and mobile devices to be used Define the HMI requirements, especially for the on-field devices and machines Define and document the system architecture to be used Define the project technicalities and technical requirements such as use case special
conditions
Task 1.4: Mountainous Forest inventory data model definition
Task Leader: CNRTask Partecipants: Graphitech, Coastway, MHG Systems, BOKU, Flyby, Greifenberg,Treemetrics
Deliverable D1.03: Data and Metadata Model Report: This report provides details of the Data and Metadata model defined to conceptualize the SLOPE Forest Information system. Delivery Date= June 2014Estimated person Month= 13.50
Task Leader 1 2 3 4 5 6 7 8 9 10 11 12
1 Definition of requirements and System analysis MHG
1.1 Users and System requirements Itene
1.2 Hardware and equipment definition Kesla
1.3 Human Machine Interface definition Graphitech
1.4 Mountainous Forest Inventory data modeldefinition
CNR
1.5 System Architecture MHG
Task 1.4:ScheduleTask Leader: CNRTask Partecipants: Graphitech, Coastway, MHG Systems, BOKU, Flyby, Greifenberg,Treemetrics
Objective: The objective of Task 1.4 is to define the required information for the FIS data population. In the Report D1.03 , available data sets as well as required additional data, to be acquired by the SLOPE modules, are defined. The definition of the different data formats and relevant standards is also included, in order to support data merging and harmonization.
Steps19/05 First version release23/06 Second version release30/06 Third version/first issue30/07 Revision of document reviewed22/09 Completed and Validated Deliverable Document
Task 1.4:TOC
1 Introduction2 Data formats and standards3 Integrated models4 Overview of existing databases/services5 Required information to populate the Forest Inventory System
Annex A: TABLES OF DATASETS FOR FIS POPULATIONAnnex B: TABLES OF DATA ON FOREST PRODUCTION QUALITY AND AVAILABILITYAnnex C: TABLES OF DATA DERIVED FROM THE FIS
Spatial data
Analysing the SLOPE requirements, several typologies of spatial data are related to the forest information system. We can include: forest and trees features, land parcels, road network and landing areas sawmills positions, elevation and slope of a certain region etc. How these information would be geometrically represented and in relation to this, how they will be modelled according to acquisition system used to retrieve the information?In SLOPE project we will have different source of geographic information and each of these produce different typologies of spatial data, which after a processing step will generate new spatial data.
Spectral data
Several typologies of spectral data are related to the forest information system. We can include (relating to the characterization scale): forest features, single tree characteristics, log quality, early ring properties, sub structural morphology of wood cell wall.Various sources affect the spectral data representation.Different spectral analysis methods are covered in this section: spectroscopy for the analysis of wood chemical-physical properties, hyperspectral imaging of wood, hyperspectral imaging of forest.
Data collected by the harvesting machinesRelevant variables, representing the characteristics of the harvesting system in the SLOPE scenario, will be measured with transducers/sensors. Some of the measured variables aim at monitoring machines parameters, enabling security, energy-saving, real-time control and automation functionalities. Some machines parameters will be also correlated to quality indices of the harvested material (e.g. cutting quality index).Another series of data are those collected by the sensors to determine parameters related to the wooden material characteristics (i.e. data from NIR and hyperspectral sensors, data from stress wave tests) or to measure geometrical features of the logs.
Overview of existing databases/services
EU forest datasets
Datasets available in the SLOPE pilot areas
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Required information to populate the FIS
to develop an interactive system for cableway positioning simulation (CwPT)
to assist tree marking forestry measurements estimations (TMT)
to define technology layers (harvest parameters) (TLT)
to support novel inventory data content (IDC)
Annex A:TABLES OF DATASETS FOR FIS POPULATION
Annex A:TABLES OF DATASETS FOR FIS POPULATION
TABLE A.1: FOREST
TABLE A.2: INFRASTRUCTURES AND BUILDINGS
TABLE A.3: HYDROGRAPHY
TABLE A.4: RISK FACTORS
TABLE A.5: COMMUNICATION
Annex B: TABLES OF DATA ON FOREST PRODUCTION QUALITY AND AVAILABILITY
Annex C: TABLES OF DATA DERIVED FROM THE FIS
TABLE C.1- HARVESTING OPERATIONS
TABLE C.2- ASSORTMENTS
TABLE C.3- INFRASTRUCTURE CONDITIONS
TABLE C.4- PERFORMANCE INDICATORSOF THE SUPPLY CHAIN
ConclusionsReport D1.03 is a reference for the implementation of:
D2.01 Remote Sensing data and analysisD2.02 UAV data and analysis D2.03 TLS data and analysis
D2.04 the Harvest simulation toolD2.05 the Road and logistic simulation module
Data and metadata model defined in the D1.03 will be the base for the implementation of the mountainous forest information system database (WP5)
The report D1.03 defines also data acquired by means of non-destructive or semi-destructive testing techniques, for the multi-sensor characterization of the harvested material. A prerequisite for this is the definition of the technical characteristics of the hardware/sensors instrumenting the harvesting machines (Task 1.2 D1.04).
2 Meeting July/2014
Thanks to:
CONTRIBUTORS and REVIEWERS:
Juan de Dios Diaz (ITENE)Barbara Hinterstoisser (BOKU)Enda Keane (Treemetrics)Martin Khmaier (BOKU)Andrea Masini (Flyby)Enda Nolan (Coastway)David O Reilly (Coastway)Gianni Picchi (CNR)Federico Prandi (Graphitech)Anna Sandak (CNR)Jakub Sandak (CNR)Veli-Matti Plosila (MHG)
SLOPEIntegrated proceSsing and controL systems fOr sustainable forest Production in mountain arEas
Kick-off Meeting 8-9/jan/2014
Deliverable Number D.1.04Technical Requirement Report
WP 1 Definition of requirements and system analysisTask 1.2 Hardware and equipment definition
Kick-off Meeting 8-9/jan/2014
Typical Supply Chain
Kick-off Meeting 8-9/jan/2014
SLOPE supply chainForest stand
Cable corridor Landing Road
Location
Processes
Hardware
Forest survey Marking Felling
Extracting Processing Transporting
Satellite imagesUAVTLS
RFID Chain sawGPS
Tower yarderCarriage
ExcavatorHarvester headControl system
Analysis equipment (sensors)
TruckRFIDGPS
Tracking
RFID, NFC, UHF, GPS etc.
Location
Processes
Hardware
Tracking
RFID, NFC, UHF, GPS etc.
Kick-off Meeting 8-9/jan/2014
Data flow
Data flow between SLOPE system
components
Kick-off Meeting 8-9/jan/2014
Tree marking and tagging
UHF technology has been identified as the most adapted to the SLOPE project requirements, due mainly to the low cost (passive tags) and long reading range (4-5 meters).
There are some changes?
Device
Description
Intermec Large Rigid UHF RFID Tag
Rugged encapsulation for harsh environments
Consistent UHF range performance worldwide
Available with Gen 2 and ISO 18000-6B silicon
Confidex Ironside micro
EPC Class1 Gen2 (ISO 18000-6C) compliant passive on-metal tag Read range: up to 5m / 16 ft. Memory:
128bit EPC + 512 bit. Dimensions: 27 x 27 x 5,5 mm
1,06 x 1,06 x 0,22 inch. Ambient temperature: -35C to +85C. -31F to +185F
Confidex Ironside
PC Class1 Gen2 (ISO 18000-6C) compliant passive on-metal tag. Read range: up to 9m / 30 ft. Memory: 128bit EPC + 512bit. Dimensions: 51,5 x 47,5 x 10 mm. 2,03 x 1,87 x 0,39 inch. Ambient temperature: -55C to +105C. -67F to +221F. Peak 1h duration:+125C to +257F
Kick-off Meeting 8-9/jan/2014
Tree marking and tagging
Some lacks in the definition of the portable devices for in forestoperation:
Need of a portable reader?
Bluetooth communication with tablet devices?
Need enanched GPS location?
Kick-off Meeting 8-9/jan/2014
Tree marking and tagging
These portable readers has been identified for the activities on the landing area, can be used also in the forest activities?.
Device
Description
IP30 Handheld RFID Reader
EPCglobal UHF Gen 2, ISO 18000-6b, ISO 18000-6c
RFID Frequency Ranges: 865, 915, and 950 MHz bands, supporting multiple regional configurations
Bluetooth and USB configurations (model dependent)
ATID AT870
13.56 MHz HF and 868 MHz UHF RFID
3.5 touch screen
Windows CE 5.0 operating system.
Dimensions: 146x74x26 mm
Weight: 270-330 g (depending on options)
Protection: IP54
GPRS,
GPS,
Kick-off Meeting 8-9/jan/2014
Processor Head
Kick-off Meeting 8-9/jan/2014
1. The new actuator bar for scanners scanning the cross section of log
2. Chain sawing module for sensing cutting forces and optimization of the cross-cut
3. Feed power sensor4. Camera/3D vision sensor5. Colour camera(s) scanning
side of the log6. Ultrasound stress wave
velocity scanner7. RFID reading system8. Data fusion/control unit
Processor Head
Kick-off Meeting 8-9/jan/2014
Cable Way and Self Propelled Carriage
Description of the hardaware, the neededimprovment related to SLOPE project have to be defined.
Kick-off Meeting 8-9/jan/2014
Smart Truck Hardware Specifications
Kick-off Meeting 8-9/jan/2014
Not completely solved issues
Portble devices for on-field operationand for hervesting operation.
Black-box
WP1 T1.5 - System Architecture
Task leader: MHG
Deliverable: D1.05 System Architecture Specifications
Designed delivery time: M6
Deliverable status: Ready
Delivery time: 24th September 2014
San Michele allAdige19 -21 January 2015
T1.5 Objectives
San Michele allAdige19 -21 January 2015
Design the technology specification of the system architecture
Specify applications and technologies to be used Specify design principles Design model and interfaces for application
integrations in different integration levels Design deployment platform
T1.5 Deliverable in brief
San Michele allAdige19 -21 January 2015
Describes each partners applications and technologies What current applications/systems can do What technologies they use How we can integrate them to the SLOPE
platform SLOPE platform integrates services and
technologies from MHG, Graphitech, Flyby & Treemetrics.
T1.5 Deliverable in brief
San Michele allAdige19 -21 January 2015
Specifies design principles are used in the SLOPE platform architecture Service oriented architecture With SOA we can loosely integrate very
different systems together With minimum modifications to exisisting
codebases
T1.5 Deliverable in brief
San Michele allAdige19 -21 January 2015
Specifies integration technologies and components to be used on this platform Liferay -> Presentation level integration
(different ways to integrate) Web Services (SOAP/REST) for service level
integration GeoServer -> spatial data from SLOPE FIS
database
T1.5 Deliverable in brief
San Michele allAdige19 -21 January 2015
Specifies integration technologies and components to be used on this platform Liferay -> Presentation level integration
(different ways to integrate) Web Services (SOAP/REST) for service level
integration GeoServer -> spatial data from SLOPE FIS
database
T1.5 Deliverable in brief
San Michele allAdige19 -21 January 2015
Specifies deployment platform Use neutral, scalable cloud service for
deployment (not inside any partners secure infrastructure)
This helps to open access for every partner that needs
Jelastic PaaS-platform is good option for deployment (MHG will test this)
San Michele allAdige19 -21 January 2015
System Architecture Overview
San Michele allAdige19 -21 January 2015
Component Diagram
San Michele allAdige19 -21 January 2015
Summary
Deliverable can be found from 04_Final_Deliverables folder Specified system architecture is good base for SLOPE FIS development System architecture specification should be updated (if needed)when
implementation processes goes further
Thank you!
Project SLOPEWP1. Definition of Requirements and System ArchitectureWP1. ObjectivesWP1 Orginal timeline and WP1 situation M01-M06WP1 And how did it go M01-M09WP1 DeliverablesWP1 ProblemsWP1 SummarySlide Number 9Slide Number 10Slide Number 11Slide Number 12Slide Number 13Slide Number 14Slide Number 15Slide Number 16Slide Number 17Slide Number 18Slide Number 19Slide Number 20Slide Number 21Slide Number 22Slide Number 23TASK 1.4Mountainous Forest inventory data model definition Work Package 1: Definition of Requirements and System AnalysisTask 1.4: Mountainous Forest inventory data model definition Task 1.4:ScheduleTask 1.4:TOCSpatial dataSpectral dataData collected by the harvesting machinesOverview of existing databases/services Required information to populate the FIS Annex A:TABLES OF DATASETS FOR FIS POPULATION Annex A:TABLES OF DATASETS FOR FIS POPULATION Annex B: TABLES OF DATA ON FOREST PRODUCTION QUALITY AND AVAILABILITYAnnex C: TABLES OF DATA DERIVED FROM THE FIS Slide Number 38Slide Number 39 SLOPEIntegrated proceSsing and controL systems fOr sustainable forest Production in mountain arEasTypical Supply ChainSLOPE supply chainData flowTree marking and taggingTree marking and taggingTree marking and taggingProcessor HeadProcessor HeadCable Way and Self Propelled Carriage Smart Truck Hardware Specifications Not completely solved issuesWP1 T1.5 - System ArchitectureT1.5 ObjectivesT1.5 Deliverable in briefT1.5 Deliverable in briefT1.5 Deliverable in briefT1.5 Deliverable in briefT1.5 Deliverable in briefSystem Architecture OverviewComponent DiagramSummary