A geographic information system (GIS) is a system for capturing, storing, analyzing and managing data that is spatially referenced to locations on Earth. GIS allows users to integrate, store, edit, analyze, share and display geographic data. It can be used for scientific investigations, resource management, environmental planning and more. The document then discusses the career of Sik Cambon Jensen, including his education and various jobs in the fields of GIS, web design, and software development over 20 years.
Presentation from 2009 LandmanXchange Conference in Dallas, TX. Provides the concept and need for GIS and GPS in Land Services, Land Management, and Surface or ROW management.
GIS stands for “Geographic Information System”. GIS is a very broad term, and trying to get a consistent definition can be tricky. Ask ten different GIS users and you will likely get ten different answers.
This is most benificial for the First year Engineering students.This presentation consists of videos and many applications of GIS. The processes and the other parts of GIS is also nicely explained.
Gis Geographical Information System FundamentalsUroosa Samman
Gis, Geographical Information System Fundamentals. This presentation includes a complete detail of GIS and GIS Softwares. It will help students of GIS and Environmental Science.
Presentation from 2009 LandmanXchange Conference in Dallas, TX. Provides the concept and need for GIS and GPS in Land Services, Land Management, and Surface or ROW management.
GIS stands for “Geographic Information System”. GIS is a very broad term, and trying to get a consistent definition can be tricky. Ask ten different GIS users and you will likely get ten different answers.
This is most benificial for the First year Engineering students.This presentation consists of videos and many applications of GIS. The processes and the other parts of GIS is also nicely explained.
Gis Geographical Information System FundamentalsUroosa Samman
Gis, Geographical Information System Fundamentals. This presentation includes a complete detail of GIS and GIS Softwares. It will help students of GIS and Environmental Science.
Spatial Data Concepts: Introduction to GIS,
Geographically referenced data, Geographic, projected
and planer coordinate system, Map projections, Plane
coordinate systems, Vector data model, Raster data
model
Data Input and Geometric transformation: Existing
GIS data, Metadata, Conversion of existing data,
Creating new data, Geometric transformation, RMS
error and its interpretation, Resampling of pixel
values.
Attribute data input and data display : Attribute data in
GIS, Relational model, Data entry, Manipulation of
fields and attribute data, cartographic symbolization,
types of maps, typography, map design, map
production
Data exploration: Exploration, attribute data query,
spatial data query, raster data query, geographic
visualization
Vector data analysis: Introduction, buffering, map
overlay, Distance measurement and map manipulation.
Raster data analysis: Data analysis environment, local
operations, neighbourhood operations, zonal
operations, Distance measure operations.
Spatial Interpolation: Elements, Global methods, local
methods, Kriging, Comparisons of different methods
GIS is a computer-based tool used and managed by people to efficiently capture, store, integrate, analyze and display spatial (geographically referenced) data & associated attribute data
Spatial Data Concepts: Introduction to GIS,
Geographically referenced data, Geographic, projected
and planer coordinate system, Map projections, Plane
coordinate systems, Vector data model, Raster data
model
Data Input and Geometric transformation: Existing
GIS data, Metadata, Conversion of existing data,
Creating new data, Geometric transformation, RMS
error and its interpretation, Resampling of pixel
values.
Attribute data input and data display : Attribute data in
GIS, Relational model, Data entry, Manipulation of
fields and attribute data, cartographic symbolization,
types of maps, typography, map design, map
production
Data exploration: Exploration, attribute data query,
spatial data query, raster data query, geographic
visualization
Vector data analysis: Introduction, buffering, map
overlay, Distance measurement and map manipulation.
Raster data analysis: Data analysis environment, local
operations, neighbourhood operations, zonal
operations, Distance measure operations.
Spatial Interpolation: Elements, Global methods, local
methods, Kriging, Comparisons of different methods
GIS is a computer-based tool used and managed by people to efficiently capture, store, integrate, analyze and display spatial (geographically referenced) data & associated attribute data
The advent of technology and the vision to keep track with the latest technology, we the RKM group now indulging us in the field of GIS to integrate the mission friendly environment.
Moreover, the branch of GIS is a peculiar stream to convey the message of nature in visualizing, analyzing, interpreting the wide geographically concern scenario. A decision making tool that helps provide a better assessment and utilization of the resources.
My special talk on 'GIS & Remote Sensing-Introduction to the Primer’ is a part of the 'Learn from the Leaders- 2' webinar series organized by IEEE SIGHT, Bombay section on May 25th, 2021
Hans Henrik Børgesen (Advisory Director i KMD DIMA) og Anders Ritter Bonnerup (Bussiness Operation Director i KMD DIMA) var forbi Gartner, for at få latest and greatest indsigt i KMD DIMA’s felt, fra Gartners Data & Analytics Analyst Jorgen Heizenberg.
GIS Indeni - Den korte vej til den menneskelige applikationSik Cambon Jensen
At komme fra A til B er ingen sag nu om dage, når blot man selv sørger for den fysiske transport af krop og legeme. Services af den ene eller anden art står i kø for at levere dig den korteste, den hurtigste og/eller den kønneste rute imellem start og slut på din færden igennem den virkelige
verden. Er dette ikke nok, så er de fleste i dag udstyret med en autopilot, i form af en GPS, som hele tiden sørger for at holde dig på rette vej.
At komme fra A til B via gangbare kanaler, og hvor den lige linje ikke nødvendigvis er en option, er et spørgsmål om (rute)planlægning og procesunderstøttende ruteanvisning på gadeniveau. En GPS, som der her typisk er tale om, er det procesunderstøttende vidunder som hele tiden ved hvor du er og guider dig punktvist ad en optimeret rute frem mod målet.
Men hvad nu hvis A og B ikke er geografiske steder i et kort, men i stedet to forskellige punkter i et sagsbehandlerforløb - ultimativt start og slut på forløbet. Planlægningen består her i en række vejledninger i hvorledes man plejer at gøre. Dette enten, fordi det er lovmæssigt bestemt (man
må jo heller ikke køre udenfor vejene), eller fordi det beror på en årelang tradition indenfor en given forvaltning. Ligesom der er hurtige, korte og kønne veje at følge i eksemplet ovenfor, er der også i sagsbehandlingen varianter som tangerer disse.
Exploring Career Paths in Cybersecurity for Technical CommunicatorsBen Woelk, CISSP, CPTC
Brief overview of career options in cybersecurity for technical communicators. Includes discussion of my career path, certification options, NICE and NIST resources.
Want to move your career forward? Looking to build your leadership skills while helping others learn, grow, and improve their skills? Seeking someone who can guide you in achieving these goals?
You can accomplish this through a mentoring partnership. Learn more about the PMISSC Mentoring Program, where you’ll discover the incredible benefits of becoming a mentor or mentee. This program is designed to foster professional growth, enhance skills, and build a strong network within the project management community. Whether you're looking to share your expertise or seeking guidance to advance your career, the PMI Mentoring Program offers valuable opportunities for personal and professional development.
Watch this to learn:
* Overview of the PMISSC Mentoring Program: Mission, vision, and objectives.
* Benefits for Volunteer Mentors: Professional development, networking, personal satisfaction, and recognition.
* Advantages for Mentees: Career advancement, skill development, networking, and confidence building.
* Program Structure and Expectations: Mentor-mentee matching process, program phases, and time commitment.
* Success Stories and Testimonials: Inspiring examples from past participants.
* How to Get Involved: Steps to participate and resources available for support throughout the program.
Learn how you can make a difference in the project management community and take the next step in your professional journey.
About Hector Del Castillo
Hector is VP of Professional Development at the PMI Silver Spring Chapter, and CEO of Bold PM. He's a mid-market growth product executive and changemaker. He works with mid-market product-driven software executives to solve their biggest growth problems. He scales product growth, optimizes ops and builds loyal customers. He has reduced customer churn 33%, and boosted sales 47% for clients. He makes a significant impact by building and launching world-changing AI-powered products. If you're looking for an engaging and inspiring speaker to spark creativity and innovation within your organization, set up an appointment to discuss your specific needs and identify a suitable topic to inspire your audience at your next corporate conference, symposium, executive summit, or planning retreat.
About PMI Silver Spring Chapter
We are a branch of the Project Management Institute. We offer a platform for project management professionals in Silver Spring, MD, and the DC/Baltimore metro area. Monthly meetings facilitate networking, knowledge sharing, and professional development. For event details, visit pmissc.org.
The Impact of Artificial Intelligence on Modern Society.pdfssuser3e63fc
Just a game Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?
This comprehensive program covers essential aspects of performance marketing, growth strategies, and tactics, such as search engine optimization (SEO), pay-per-click (PPC) advertising, content marketing, social media marketing, and more
2. Kort fortalt - GIS Geografiske Informations Systemer A geographic information system (GIS), also known as a geographical information system or geospatial information system, is any system for capturing, storing, analyzing and managing data and associated attributes which are spatially referenced to Earth. In the strictest sense, it is any information system capable of integrating, storing, editing, analyzing, sharing, and displaying geographically referenced information. In a more generic sense, GIS is a tool that allows users to create interactive queries (user created searches), analyze the spatial information, edit data, maps, and present the results of all these operations. Geographic information science is the science underlying the geographic concepts, applications and systems, taught in degree and GIS Certificate programs at many universities. Geographic information system technology can be used for scientific investigations, resource management, asset management, environmental impact assessment, urban planning, cartography, criminology, history, sales, marketing, and logistics. For example, GIS might allow emergency planners to easily calculate emergency response times in the event of a natural disaster, GIS might be used to find wetlands that need protection from pollution, or GIS can be used by a company to site a new business location to take advantage of a previously underserved market.
5. Bachelor 1993 Computation and robot-implementation of optimal strategy for the zero-sum game "klunse" Peter Gustav og Sik Cambon Jensen De optimale strategier for klunse for to personer med op til 3 tændstikker skal bestemmes og implementeres på en robot på en sådan måde, at spillet kommer til at foregå realistisk.
11. 2. Job GIS Danmark Esprit Project 22084 - DISGIS Distributed Geographical Information Systems-Models Methods Tools and Frameworks Keywords: RTD Project Technical - distributed systems, OMG, CORBA, object orientation, interoperability, geographical information systems Sector - public administration , IT industry There is an emerging need for Distributed Geographical Information Systems. The possibility for realising such systems is being supported through emerging European-based standards, such as CEN/TC 287 Geographic Information and ISO-DIS 10746 Reference Model for Open Distributed Processing (ODP), and new distributed object technology such as OMG CORBA and MS Networked COM/OLE, as enabling technologies for communication and information infrastructures. The objective of the project is to provide models, methods, tools and frameworks for the development of open distributed systems in general and open distributed Geographical Information Systems (GIS) in particular, and apply the methods, tools, and frameworks in two pilot cases, at two Enterprise GIS test sites, to demonstrate and validate the usability and viability of the DISGIS results. The business objective of the DISGIS project is to develop methods and tools that will decrease the cost of geodata management and distribution for European Enterprise GIS' and further increase the return of investments of geodata collection and establishment.The project is user-driven by the requirements in the area of GIS. The distributed system technology (DIS) partners incrementally transfer their technology to the geographic information system partners, and get requirements and user experiences back. The Norwegian Mapping Authority provides the premises in the area of European and international GIS standards and national and European geographic information infrastructure. GIS Danmark as a GIS provider that is responsible for the GIS desktop pilot, DIKAS as a GIS provider that is responsible for the GIS geodata server and services pilot. Taskon will provide ODP extensions and distributed object extensions to the OOram method and tool, and is also in particular responsible for the support of the ODP computational viewpoint support. Iona will provide extensions to CORBA-OLE interoperability and database-access for its Orbix distributed object technology, and is responsible for the ODP technology viewpoint support. INESC will provide its DASCo methodology for OOram extensions and is responsible for the ODP enterprise and engineering viewpoint support. SINTEF will provide its SIMOD methodology for OOram extensions in its role as DIS partner, and have responsibility for the incorporation of the CEN/TC 287-related EXPRESS information modelling language support in the ODP information viewpoint. In its role as a GIS partner, SINTEF will provide a framework for GIS ODP, based on the architecture of SINTEF's geographic information software interoperability platform The approach of the project is to apply the emerging Reference Model of Open Distributed Processing standard in combination with existing distributed object technology in the application domain of Distributed Geographic Information Systems. The project will focus on the total life-cycle of system development and delivers ODP compliant methods and tools that assist in the transformation from models to the implementation of working distributed systems. The results from DISGIS will be a validation and demonstration of Open Distributed Processing, based on Distributed Object Technology, applied to Geographical Information Systems. The two industrial distributed system partners, Taskon and Iona, will enhance and promote their life-cycle-oriented development models, methods, tools and frameworks for distributed object technology, enhanced with support for ODP and adjusted to meet the demands of distributed geographical information systems The two industrial geographic information system partners, GISD and DIKAS, will improve their market position for delivering both desktop-oriented and service oriented distributed geographical information systems, based on the results from the pilot systems and the use of distributed object technology models, methods, tools and frameworks. The mapping agency partner, NMA, will make use of the results for the development of a geographic information infrastructure, and promote the results in European and international standardisation. The two research partners, SINTEF and INESC, will use the results in order to increase their share of research and development projects in the area of distributed systems. In addition to the special exploitation strategy by each partner, the DISGIS consortium will seek to cooperate with each other in promoting the technology, in particular through European and international standard-organisations and user groups, such as CEN, ISO, OMG, OGIS and EUROGI.