Play with Pixels, Bitmap Manipulation with Flash! - Koen De Weggheleirenewmovieclip
Maybe you've used a displacement or convolution filter but never understood how it actually works...maybe you need some inspiration for your next mashup or you just want some tips on how you can make your daily bitmapdata life easier. In this session Koen will explain in depth how to use Flash CS3 to do real time image processing. Fasten your seatbelt for an inspirational hour full of displacement, manipulation, convolution, matrices, webcam and of course a lot of bitmapdata and fun!
El “Manual de sistemas de tratamiento de aguas residuales
utilizados en Japón”, es un documento que desarrolló la Agencia de Cooperación Internacional de Japón (JICA, por sus siglas en inglés) en coordinación con la Comisión Nacional del
Agua (Conagua), para dar a conocer dos nuevas alternativas
o procesos de tratamiento de aguas residuales municipales
que pueden contribuir al saneamiento de comunidades menores a 2,500 habitantes. De los dos procesos que se analizaron y adecuaron a las condiciones del país, el más sencillo es el de las zanjas de infiltración o de lixiviación capilar, que puede emplearse como un complemento del sistema para tratar efluentes de fosas sépticas, de tanques Imhoff o de reactores anaerobios de flujo ascendente, entre otros. Las zanjas de infiltración o de lixiviación capilar tienen profundidades que varían de 45 a 60 cm y utilizan arena de río como medio capilar y filtrante en sustitución de grava que es el material utilizado en las zanjas de infiltración actuales, las que pueden llegar a tener profundidades de 90 a 120 cm.
Création de visuels personnalisés avec Power BI Visuals CLIDenys Chamberland
Contenu de présentation sur la Création de visuels personnalisésavec Power BI Visuals CLI lors de la session MSDEVMTL : Data Platform le 23 janvier 2017 chez Microsoft Montréal.
Simulation of induction motor for reference of practical engineeringvivatechijri
This Project simulates an Induction Motor. It will be helpful for the performer in the practical, observation of the Induction Motor in the lab, as the design motor will be the simulation of the actual motor used for the practical and experiment. The Factors such as direction of magnetic field, magnetic field density, number of windings, heat dissipation, temperature gradient, current flow, etc. which are not visible for the performer but actually plays a very important role for the performance and the efficiency of the Induction Motor will be seen digitally, graphically with the help of simulation on the platform of ANSYS software. The design and calculation of various parameters of the induction motor are done to obtain a simulation which will be approximate to that of the induction motor used for the practical purposes. This will not only increase the interest of the performer but also the understandability of the practical will be more convenient as the performer will be able to gain knowledge about various parameter which were practically impossible to view.
Joydip Jana is a Renewable Energy Researcher & presently working in the field of Grid Integration of Renewable Energy, Smart Microgrid, Storage Systems including Super Capacitor and Vanadium Redox Battery etc. with Indian Institute of Engineering Science & Technology (IIEST), Shibpur. Currently he is involved in a project “Advanced Research on Thin Film Silicon Solar Cell & PV Systems” funded by Ministry of New and Renewable Energy (MNRE) of Govt. of India and implemented by IIEST, Shibpur. The project includes design, development and field testing of MPPT based high efficiency inverters and grid synchronizing system components used in grid interactive roof top PV systems and design, field-testing and performance evaluation of BIPV system in Indian Institute of Engineering Science & Technology (IIEST), Shibpur, West Bengal, India. He has worked with RRCAT, a centre of Bhaba Atomic Research Centre (BARC), Govt. of India for setting up a Digital Fast Feedback Control System using FPGA for RF Signals in the particle accelerator installed in RRCAT, Indore. He published several papers in different national & international conferences and journal and wrote a book chapter on “Solar PV Power Generation” in “Advances in Solar Energy Science & Engineering, Vol.1” published by National Institute of Solar Energy (NISE), Govt. of India. He was involved in a project for set up 100kW Grid-Tied solar power plant at State Bank of India, Sammridhhi Bhavan, Local Head Office, Kolkata for providing consultancy services for preparation of synopsis of tenders (Technical & Commercial), pre-bid design, drawing & BOQ preparation, vendor selection, site visit, site layout, Engineering drawing preparation, system design with PVSyst software, making mechanical, electrical and structural drawing using AutoCAD software, design, selection of SPV modules and BOS, site supervision and commissioning of the project. He successfully designed, developed & installed solar system in Electric Vehicle application in the year 2015.
Play with Pixels, Bitmap Manipulation with Flash! - Koen De Weggheleirenewmovieclip
Maybe you've used a displacement or convolution filter but never understood how it actually works...maybe you need some inspiration for your next mashup or you just want some tips on how you can make your daily bitmapdata life easier. In this session Koen will explain in depth how to use Flash CS3 to do real time image processing. Fasten your seatbelt for an inspirational hour full of displacement, manipulation, convolution, matrices, webcam and of course a lot of bitmapdata and fun!
El “Manual de sistemas de tratamiento de aguas residuales
utilizados en Japón”, es un documento que desarrolló la Agencia de Cooperación Internacional de Japón (JICA, por sus siglas en inglés) en coordinación con la Comisión Nacional del
Agua (Conagua), para dar a conocer dos nuevas alternativas
o procesos de tratamiento de aguas residuales municipales
que pueden contribuir al saneamiento de comunidades menores a 2,500 habitantes. De los dos procesos que se analizaron y adecuaron a las condiciones del país, el más sencillo es el de las zanjas de infiltración o de lixiviación capilar, que puede emplearse como un complemento del sistema para tratar efluentes de fosas sépticas, de tanques Imhoff o de reactores anaerobios de flujo ascendente, entre otros. Las zanjas de infiltración o de lixiviación capilar tienen profundidades que varían de 45 a 60 cm y utilizan arena de río como medio capilar y filtrante en sustitución de grava que es el material utilizado en las zanjas de infiltración actuales, las que pueden llegar a tener profundidades de 90 a 120 cm.
Création de visuels personnalisés avec Power BI Visuals CLIDenys Chamberland
Contenu de présentation sur la Création de visuels personnalisésavec Power BI Visuals CLI lors de la session MSDEVMTL : Data Platform le 23 janvier 2017 chez Microsoft Montréal.
Simulation of induction motor for reference of practical engineeringvivatechijri
This Project simulates an Induction Motor. It will be helpful for the performer in the practical, observation of the Induction Motor in the lab, as the design motor will be the simulation of the actual motor used for the practical and experiment. The Factors such as direction of magnetic field, magnetic field density, number of windings, heat dissipation, temperature gradient, current flow, etc. which are not visible for the performer but actually plays a very important role for the performance and the efficiency of the Induction Motor will be seen digitally, graphically with the help of simulation on the platform of ANSYS software. The design and calculation of various parameters of the induction motor are done to obtain a simulation which will be approximate to that of the induction motor used for the practical purposes. This will not only increase the interest of the performer but also the understandability of the practical will be more convenient as the performer will be able to gain knowledge about various parameter which were practically impossible to view.
Joydip Jana is a Renewable Energy Researcher & presently working in the field of Grid Integration of Renewable Energy, Smart Microgrid, Storage Systems including Super Capacitor and Vanadium Redox Battery etc. with Indian Institute of Engineering Science & Technology (IIEST), Shibpur. Currently he is involved in a project “Advanced Research on Thin Film Silicon Solar Cell & PV Systems” funded by Ministry of New and Renewable Energy (MNRE) of Govt. of India and implemented by IIEST, Shibpur. The project includes design, development and field testing of MPPT based high efficiency inverters and grid synchronizing system components used in grid interactive roof top PV systems and design, field-testing and performance evaluation of BIPV system in Indian Institute of Engineering Science & Technology (IIEST), Shibpur, West Bengal, India. He has worked with RRCAT, a centre of Bhaba Atomic Research Centre (BARC), Govt. of India for setting up a Digital Fast Feedback Control System using FPGA for RF Signals in the particle accelerator installed in RRCAT, Indore. He published several papers in different national & international conferences and journal and wrote a book chapter on “Solar PV Power Generation” in “Advances in Solar Energy Science & Engineering, Vol.1” published by National Institute of Solar Energy (NISE), Govt. of India. He was involved in a project for set up 100kW Grid-Tied solar power plant at State Bank of India, Sammridhhi Bhavan, Local Head Office, Kolkata for providing consultancy services for preparation of synopsis of tenders (Technical & Commercial), pre-bid design, drawing & BOQ preparation, vendor selection, site visit, site layout, Engineering drawing preparation, system design with PVSyst software, making mechanical, electrical and structural drawing using AutoCAD software, design, selection of SPV modules and BOS, site supervision and commissioning of the project. He successfully designed, developed & installed solar system in Electric Vehicle application in the year 2015.
1. Resume
Y Swathi Sree
Email: sss0312@outlook.com
Mobile: 8147747080.
Objective:
To establish a successful career in the field of Technology and Service Delivery
and be a part of a progressive organization that gives me a scope for constant learning
and enhances my skills.
Work Experience:
2014-2016 Role: Data Analyst
Successfully worked on various data entry projects.
The job is to collect data on line and enter the same in a Form.
This is for a new Search Engine Site which is being developed.
Mini Project:
Name : SCADA--(Supervisory Control & Data Acquisition)
Duration : 15 days.
Description : The "Monitoring and Control System" is the main
part of a distribution automation network. This system was defined by IEEE as "A
system that enables an electric company to remotely monitor, coordinate and operate
distribution components in a real-time mode from remote location".
The location from where control decisions are initiated is generally called Distribution
Control Center (DCC).
Within this center, different kinds of application software are used, which cooperate
among themselves to achieve the control task.
Moreover, we proved the importance on using computer based system for sustainable
development in the automation of the power distribution network to improve
the customers’ service and the reliability of the network.
Main project:
Name : “SOLAR BASED POWER HUMP”
Duration : 3Months.
Description :
This device works on principle of friction and conversion of translator motion to rotary
motion. there is sliding plate fixed on the road which is fixed by spring. it takes the
stroke motion of the vehicles (slides the plate) and hit the freewheel (for unidirectional
motion), this rotate the flywheel (mechanical capacitor) turn the generator via pulley
arrangement and hence motive power generates. we can easily understand the overall
working of the automatic street light here the sensor ldr has the property to change its
resistance according to the intensity of the light. as the intensity of light falling at the ldr
increases, its resistance gets decreased and so on. hence the total amount of light
remains constant. Road power generation this is new type of unconventional source of
energy. This is a type of vibration harvesting, this uses lost energy of vehicle and converts
kinetic energy to electric energy.
2. Achievements:
• Acquired Basha Praveena certificate in HINDI.
• Participation in seminars (Microsoft Dream Spark conducted by A.U)
• Participated in the Ethical Hacking Workshop conducted by IIT Kharagpur.
Personal Details:
Spouse Name: Mr. Venkata Durga Pavan Valiveti
Date of Birth: 03 December 1991.
Address for Communication:
Swathisree Y
#56,1st Floor House No3,New Bank Colony
Konankunte, Annaporneshwari Temple St,
Bangalore Karnataka 560062.
Mobile: 8147747080.
Qualification:
BE in Electronics & Communications from PRIME Affiliated to AU (Andhra University)
2009-2013.
Languages Known:
ENGLISH, HINDI & TELUGU.
DECLARATION:
I hereby declare that the above-mentioned information is correct up to my knowledge
and I bear the responsibility for the correctness of the above-mentioned particulars.
Y Swathisree
DT:
Bangalore.