WISS2017-program

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(Day 3 - Tuesday May 23rd, 2017)
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(Day 3 - Tuesday May 23rd, 2017)
 
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| align ="left" |  
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| align ="left" | '''Welcome'''
| align ="left" | '''Welcome'''
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| align ="left" | [[Media:welcome-WISS2017.pdf‎| Slides]] 
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| align ="left" |
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| align ="left" | [http://www.youtube.com/watch?v=2isU4rBHq6I&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=1 video]
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| align ="left" | 9:30-10:40
| align ="left" | 9:30-10:40
| align ="left" | Elena Rovenskaya  
| align ="left" | Elena Rovenskaya  
| align ="left" | Optimal Resource Allocation (1): Introduction  
| align ="left" | Optimal Resource Allocation (1): Introduction  
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| align ="left" | [[Media:Rovenskaya_Optimal_Resource_Allocation_(1).pdf| Slides]]  
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=pSs_3tMm8AM&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=2 video]
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| align ="left" | 10:40-11:00
| align ="left" | 10:40-11:00
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| align ="left" | Abubakr Muhammad
| align ="left" | Abubakr Muhammad
| align ="left" | Water Informatics: Technologies and Tools
| align ="left" | Water Informatics: Technologies and Tools
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| align ="left" |  
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| align ="left" | [[Media:Abubakr-L1-WISS2017.pdf‎| Slides]] 
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=RVQnqK9lFlM&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=3 video]
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| align ="left" | 11:40-12:50
| align ="left" | 11:40-12:50
| align ="left" | Elena Rovenskaya
| align ="left" | Elena Rovenskaya
| align ="left" | Optimal Resource Allocation (2): Linear Programming Problems
| align ="left" | Optimal Resource Allocation (2): Linear Programming Problems
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| align ="left" |  
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| align ="left" | [[Media:Rovenskaya_Optimal_Resource_Allocation_(2).pdf‎| Slides]] 
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=9juIDrD2EP0&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=4 video]
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| align ="left" | 12:50-14:00
| align ="left" | 12:50-14:00
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| align ="left" | Afreen Siddiqi  
| align ="left" | Afreen Siddiqi  
| align ="left" | System Dynamics (1): Introduction  
| align ="left" | System Dynamics (1): Introduction  
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| align ="left" | [[Media:SysDynamics_WIT_Lecture_1_Class_Slides.pdf| Slides]] 
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| align ="left" | [http://www.youtube.com/watch?v=3mLF1NqpCWE&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=5 video]
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| align ="left" | 15:10-15:25
| align ="left" | 15:10-15:25
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| align ="left" |  
| align ="left" | '''Documentary Screening'''
| align ="left" | '''Documentary Screening'''
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River Garden: The Legacy of Shalamar Garden
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''River Garden: The Legacy of Shalamar Garden.''
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| align ="left" |  
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A WIT Media-Lab Production.
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| align ="left" | [http://www.youtube.com/playlist?list=PLUgrJPM1itCtFDhmGwIgkmDae0sdpcU6A Promo on WIT Youtube Channel]
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| align ="left" |  
| align ="left" |  
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| align ="left" | '''Panel Discussion'''
| align ="left" | '''Panel Discussion'''
New Opportunities for Water Informatics and Precision Agriculture in Industry and Governance
New Opportunities for Water Informatics and Precision Agriculture in Industry and Governance
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| align ="left" |  
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| align ="left" | [[Media:WISS17_panel.pdf| Background & questions]]
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=mzjEhUGsVGw&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=6 video]
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| align ="left" | Afreen Siddiqi
| align ="left" | Afreen Siddiqi
| align ="left" | System Dynamics (2) – System Structure and Behavior
| align ="left" | System Dynamics (2) – System Structure and Behavior
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| align ="left" |   
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| align ="left" | [[Media:SysDynamics_WIT_Lecture_2_Class_Slides.pdf| Slides]] 
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| align ="left" |  
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[[Media:WISS_2017_AS_L2_supplement.zip| vensim diagram]]
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| align ="left" | [http://www.youtube.com/watch?v=cwmyWtu7st8&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=7 video]
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| align ="left" | 10:10-10:30
| align ="left" | 10:10-10:30
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| align ="left" | Elena Rovenskaya  
| align ="left" | Elena Rovenskaya  
| align ="left" | Optimal Resource Allocation (3): An overview of a few extensions   
| align ="left" | Optimal Resource Allocation (3): An overview of a few extensions   
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| align ="left" | [[Media:Rovenskaya_Optimal_Resource_Allocation_(3)_.pdf‎‎| Slides]] 
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=3gwLhSm9m2w&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=8 video]
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| align ="left" | 11:40-12:40
| align ="left" | 11:40-12:40
| align ="left" | Susan L. Ustin
| align ="left" | Susan L. Ustin
| align ="left" | Introduction to Remote Sensing of Environment: Fundamental Principles and Practices
| align ="left" | Introduction to Remote Sensing of Environment: Fundamental Principles and Practices
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| align ="left" |  
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| align ="left" | [[Media:Ustin_WIT_lecture_1_2017.pdf‎| Slides]] 
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| align ="left" |
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| align ="left" | [http://www.youtube.com/watch?v=xAhZA9Wgxyg&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=9 video]
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| align ="left" | 12:40-13:00
| align ="left" | 12:40-13:00
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| align ="left" | Afreen Siddiqi
| align ="left" | Afreen Siddiqi
| align ="left" | System Dynamics (3) – Building Simulations
| align ="left" | System Dynamics (3) – Building Simulations
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| align ="left" |
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| align ="left" | [[Media:SysDynamics_WIT_Lecture_3_Class_Slides.pdf| Slides]] 
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=_PyDDC9os4U&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=10 video]
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| align ="left" | 15:00-15:20
| align ="left" | 15:00-15:20
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| align ="left" | Stefano Vignudelli
| align ="left" | Stefano Vignudelli
| align ="left" | Satellite Radar Altimetry: Principles and Application to Hydrological Studies
| align ="left" | Satellite Radar Altimetry: Principles and Application to Hydrological Studies
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| align ="left" |   
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| align ="left" | [[Media:Vignudelli-L1-WISS2017.pdf‎| Slides]]  
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| align ="left" |  
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[http://www.dropbox.com/s/e93rdrcdmnkaapj/bibliography.zip?dl=0 Reading Material]
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| align ="left" | [http://www.youtube.com/watch?v=eI3kWsNBL1M&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=11 video]
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| align ="left" | 16:30-17:30
| align ="left" | 16:30-17:30
| align ="left" | Susan L. Ustin
| align ="left" | Susan L. Ustin
| align ="left" | Principles of remote sensing of water in the solar spectral region
| align ="left" | Principles of remote sensing of water in the solar spectral region
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| align ="left" |  
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| align ="left" | [[Media:Ustin-L2-WISS2017.pdf| Slides]] 
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=PYTBWvydiaY&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=12 video]
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| align ="left" | Asif Khan
| align ="left" | Asif Khan
| align ="left" | Role of remote sensing in snow-glacier hydrological modelling
| align ="left" | Role of remote sensing in snow-glacier hydrological modelling
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| align ="left" | [[Media:Khan-L1-WISS2017.pdf‎| Slides]] 
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=hON1p-Oahhw&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=13 video]
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| align ="left" | 9:40-10:40
| align ="left" | 9:40-10:40
| align ="left" | Susan L. Ustin
| align ="left" | Susan L. Ustin
| align ="left" | Overview of Airborne and Satellite Remote Sensing Instruments  
| align ="left" | Overview of Airborne and Satellite Remote Sensing Instruments  
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| align ="left" |  
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| align ="left" | [[Media:Ustin-L3-WISS2017.pdf‎| Slides]] 
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=ty1_EryFNFE&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=14 video]
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| align ="left" | 10:40-11:00
| align ="left" | 10:40-11:00
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| align ="left" | Sanval Nasim
| align ="left" | Sanval Nasim
| align ="left" | Optimal Control: An Application to Groundwater Management
| align ="left" | Optimal Control: An Application to Groundwater Management
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| align ="left" |  
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| align ="left" | [[Media:Nasim-L1-WISS2017.pdf‎| Slides]] 
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| align ="left" |  
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| align ="left" | [http://www.youtube.com/watch?v=dGtOXNT3GrA&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=15 video]
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| align ="left" | 11:40-12:50
| align ="left" | 11:40-12:50
| align ="left" | Stefano Vignudelli
| align ="left" | Stefano Vignudelli
| align ="left" | Satellite Radar Altimetry: Lab Exercise
| align ="left" | Satellite Radar Altimetry: Lab Exercise
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| align ="left" |  
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| align ="left" | [[Media:Vignudelli-L2-WISS2017.pdf‎| Slides]] 
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| align ="left" |
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| align ="left" | [http://www.youtube.com/watch?v=RAucX3WCRW0&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=16 video]
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| align ="left" | 12:50-14:00
| align ="left" | 12:50-14:00
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| align ="left" | Zubair Khalid
| align ="left" | Zubair Khalid
| align ="left" | Using Advance Signal Processing Methods for the Estimation of Ground Water Storage Variations in Indus River Basin Using GRACE Data
| align ="left" | Using Advance Signal Processing Methods for the Estimation of Ground Water Storage Variations in Indus River Basin Using GRACE Data
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| align ="left" | [[Media:Khalid-L1-WISS2017.pdf‎| Slides]] 
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| align ="left" | [http://www.youtube.com/watch?v=2uyrFoC0Das&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=17 video]
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| align ="left" | 14:30-15:30
| align ="left" | 14:30-15:30
| align ="left" | Susan L. Ustin
| align ="left" | Susan L. Ustin
| align ="left" | Remote sensing using active RaDAR and LiDAR for hydrologic properties and processes, including passive microwave
| align ="left" | Remote sensing using active RaDAR and LiDAR for hydrologic properties and processes, including passive microwave
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| align ="left" | [[Media:Ustin-L4-WISS2017.pdf‎| Slides]] 
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| align ="left" | [http://www.youtube.com/watch?v=qy727XoV2P8&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=18 video]
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| align ="left" | 15:30-15:45
| align ="left" | 15:30-15:45
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| align ="left" | Waqas Qazi
| align ="left" | Waqas Qazi
| align ="left" | Hydrological Remote Sensing with Synthetic Aperture Radar (SAR) Imaging
| align ="left" | Hydrological Remote Sensing with Synthetic Aperture Radar (SAR) Imaging
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| align ="left" | [[Media:Qazi-L1-WISS2017.pdf‎| Slides]]
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[http://www.youtube.com/watch?v=Ep1mHSuHUE4 Intro to Radar]
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[http://saredu.dlr.de SARedu website]
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[http://www.sciencedirect.com/science/article/pii/S1464343X05001950 Paper 1 - Robinson et al (2006)]
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[http://ieeexplore.ieee.org/abstract/document/6504845/ Tutorial - Moreira et al (2013)]
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[http://remotesensing.spiedigitallibrary.org/article.aspx?articleid=2569865 Paper 2 - Islam et al (2016)]
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| align ="left" |[http://www.youtube.com/watch?v=-204AehEQWo&index=19&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo video]
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| align ="left" | 16:25-17:30
| align ="left" | 16:25-17:30
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Certificate Distribution.  
Certificate Distribution.  
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| align ="left" | [[Media:Baig-L1-WISS2017.pdf| Slides]]
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| align ="left" | [http://www.youtube.com/watch?v=7voyd6u2Ppw&list=PLUgrJPM1itCsQmjJ6VRBS_JnrGsATvpKo&index=21 video]
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Current revision


Summer School on Water Informatics: Science and Systems
WISS2017
May 21-23, 2017. School of Science and Engineering, LUMS, Pakistan


CONTENT

The Summer School on ‘Water Informatics: Science and Systems’ is focused on building capacity through two key modules on a) Systems Analysis and b) Remote Sensing. The two modules will be knit together by demonstrations, field visits and case studies on how the two aspects of sensor data collection (science) and data analysis (systems) can be combined in unified water informatics frameworks.

The module on Systems Analysis aims to introduce students to systems theory, systems analysis, and applications for quantitatively and qualitatively analyzing critical linkages between water, energy, and food systems in the Indus Basin that are vital for effective policy making and sustainable management of natural resources. The module on Remote Sensing aims to give participants an introduction to the science and principles of remote sensing of the Earth, remote sensing data acquisition (specifically satellite data sets in public domain), as well as hydrological applications of remote sensing. The two modules will be knit together by demonstrations, field visits and case studies on how the two aspects of sensor data collection (science) and data analysis (systems) can be combined in unified Water Informatics frameworks.


Module 1: Systems Analysis

Systems Analysis as a method of inquiry, provides a holistic or system view of the problem at hand by decomposing it into smaller components and solving each one independently whilst simultaneously accounting for the interconnections among the components. This philosophy makes Systems Analysis a perfect candidate to tackle the global transformation challenges such as climate change, pollution, the energy crisis and nexus problems such as the water-energy-food nexus. Systems Analysis has now begun to be viewed as an art which requires experience in linking extremely disparate disciplines and an ability to form integrated solutions to complex issues. This module seeks to provide the audience with an exposure to Systems Analysis techniques through the following Module Learning Objectives 1. Methods for understanding complex systems 2. Multi-criteria Decision Making 3. Technical advances in Systems Analysis 4. Harnessing Systems Analysis tools for solving global issues 5. Water-Energy-Food Nexus


Module 2: Remote Sensing

Remote sensing is the science and technology enabling acquisition and interpretation of information from a distance, using sensors that are not in physical contact with the subject. Remote sensing of the Earth’s environment is a vast subject with many compelling applications in diverse areas such as natural resource management (e.g. agriculture, forestry, mining), hazard assessment, urban monitoring, and climate change. This module will provide a broad introduction of remote sensing of the Earth’s environment, with particular emphasis on hydrological applications. This module will present: a) An introduction to the science and principles of remote sensing of the Earth b) Remote sensing data acquisition (specifically satellite data sets in public domain) c) Hydrological applications of remote sensing

SCHEDULE

Day 0 - Saturday May 20th, 2017

Arrival of speakers and participants. No lecture sessions will take place on Saturday, May 20th 2017.


Day 1 - Sunday May 21st, 2017

TIME SPEAKER TITLE HANDOUTS OR SLIDES VIDEOS
8:00-9:00 Registration
9:00-9:30 Welcome Slides video
9:30-10:40 Elena Rovenskaya Optimal Resource Allocation (1): Introduction Slides video
10:40-11:00 Tea Break
11:00-11:40 Abubakr Muhammad Water Informatics: Technologies and Tools Slides video
11:40-12:50 Elena Rovenskaya Optimal Resource Allocation (2): Linear Programming Problems Slides video
12:50-14:00 Lunch Break
14:00-15:10 Afreen Siddiqi System Dynamics (1): Introduction Slides video
15:10-15:25 Tea Break
15:25-16:20 Documentary Screening

River Garden: The Legacy of Shalamar Garden.

A WIT Media-Lab Production.

Promo on WIT Youtube Channel
16:20-17:30 Dr. Abubakr Muhammad (Moderator)

Mr. Habidulla Bodla (Chief Monitoring, Punjab Irrigation Dept.)

Dr. Wasif Khan (WIT Faculty Associate, LUMS)

Dr. Imran Cheema (WIT Faculty Associate, LUMS)

Mr. Mehboob Elahi (Sustainable Agri Manager, Nestlé Pakistan)


Panel Discussion

New Opportunities for Water Informatics and Precision Agriculture in Industry and Governance

Background & questions video

Day 2 - Monday May 22nd, 2017

TIME SPEAKER TITLE HANDOUTS OR SLIDES VIDEOS
9:00-10:10 Afreen Siddiqi System Dynamics (2) – System Structure and Behavior Slides

vensim diagram

video
10:10-10:30 Tea Break
10:30-11:40 Elena Rovenskaya Optimal Resource Allocation (3): An overview of a few extensions Slides video
11:40-12:40 Susan L. Ustin Introduction to Remote Sensing of Environment: Fundamental Principles and Practices Slides video
12:40-13:00 Group Photo
13:00-14:00 Lunch Break
14:00-15:00 Afreen Siddiqi System Dynamics (3) – Building Simulations Slides video
15:00-15:20 Tea Break
15:20-16:30 Stefano Vignudelli Satellite Radar Altimetry: Principles and Application to Hydrological Studies Slides

Reading Material

video
16:30-17:30 Susan L. Ustin Principles of remote sensing of water in the solar spectral region Slides video

Day 3 - Tuesday May 23rd, 2017

TIME SPEAKER TITLE HANDOUTS OR SLIDES VIDEOS
9:00-9:40 Asif Khan Role of remote sensing in snow-glacier hydrological modelling Slides video
9:40-10:40 Susan L. Ustin Overview of Airborne and Satellite Remote Sensing Instruments Slides video
10:40-11:00 Tea Break
11:00-11:40 Sanval Nasim Optimal Control: An Application to Groundwater Management Slides video
11:40-12:50 Stefano Vignudelli Satellite Radar Altimetry: Lab Exercise Slides video
12:50-14:00 Lunch Break
14:00-14:30 Zubair Khalid Using Advance Signal Processing Methods for the Estimation of Ground Water Storage Variations in Indus River Basin Using GRACE Data Slides video
14:30-15:30 Susan L. Ustin Remote sensing using active RaDAR and LiDAR for hydrologic properties and processes, including passive microwave Slides video
15:30-15:45 Tea Break
15:45-16:25 Waqas Qazi Hydrological Remote Sensing with Synthetic Aperture Radar (SAR) Imaging Slides

Intro to Radar

SARedu website

Paper 1 - Robinson et al (2006)

Tutorial - Moreira et al (2013)

Paper 2 - Islam et al (2016)

video
16:25-17:30 Closing

Keynote: Mirza Asif Baig, Pakistan Commissioner for Indus Waters.

MoU Signing with Indus Water Commission.

MoU Signing with Nestle, Pakistan.

Certificate Distribution.

Slides video


Sponsors / Organizers News / Announcements

http://www.hec.gov.pk/

  • Applications open for WIT Summer School on Water Informatics: Science and Systems. (Apr 2017)
  • WIT Fall School on Water Science, Policy and Governance WSPG2016 held at LUMS. (Nov 2016)
  • WIT Spring School on Water Systems, Science and Practice WSSP2016 held at LUMS. (Mar 2016)
  • LUMS formally inaugurates the Center for Water Informatics and Technology (WIT) (Jan 2016)
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