외근을 자주 나가거나 타지에 자주 방문하는 영업사원, 또는 여행자들을 위한 주차장 어플리케이션입니다. 타지역에서 시간과 돈을 절약하기 위해 자신의 위치 주변에 가장 가깝고 가장 저렴한 주차장 정보와 위치정보를 한번에 검색할 수 있도록 하였습니다. 또한 사용자들간의 후기 또는 공유기능을 통해서 더욱 발빠른 주차장의 정보를 공유할 수 있도록 했습니다. 공유 페이지에는 '좋아요'기능과 '댓글달기' 기능을 추가하여 사용자들이 더욱 활발히 커뮤니케이션 할 수 있도록 유도하였습니다.
외근을 자주 나가거나 타지에 자주 방문하는 영업사원, 또는 여행자들을 위한 주차장 어플리케이션입니다. 타지역에서 시간과 돈을 절약하기 위해 자신의 위치 주변에 가장 가깝고 가장 저렴한 주차장 정보와 위치정보를 한번에 검색할 수 있도록 하였습니다. 또한 사용자들간의 후기 또는 공유기능을 통해서 더욱 발빠른 주차장의 정보를 공유할 수 있도록 했습니다. 공유 페이지에는 '좋아요'기능과 '댓글달기' 기능을 추가하여 사용자들이 더욱 활발히 커뮤니케이션 할 수 있도록 유도하였습니다.
9 Steps to 9% GDP Growth Rate in 9 months in Rs 900 Crore!
Spend 9 Minutes with open mind!
Make in India,Letter of Credit,Skill India,Budget,Fortune 1000 companies,PSU's,G-20 countries,Theory plus Practice,Innovation
This document provides leisure activity options for Felicita, an 84-year-old woman with mild dementia and low vision, in the San Jose area. It lists museums, theaters, parks, libraries, a senior center, gardens, and art studios along with their locations, admission costs if any, and contact information to provide recreational opportunities for Felicita. Transportation assistance is also available through the local Senior Outreach Program.
A group of 40 people will carpool for 3 hours to spend Semana Santa in Cordoba and Sevilla. They will travel 210km over 4 nights and 3 days, sharing rides and accommodations. The trip encourages participants to experience the passion and traditions of Semana Santa.
Agrideas의 첫번째 단계인 Idea Seed를 골라내기 위한 Ideaseed Card. 사업아이템/아이디어는 본인이 관심있는 것, 즐겨하는 것, 또는 미래에 하고 싶은 것에서 출발하죠. idea seed에 나와있는 category를 보고 먼저 team에서 가장 관심있는 seed를 골라보세요! (전체 21개의 Idea Seed)
Millennials & Driving: A Survey Commissioned by ZipcarZipcar_Inc
Zipcar, Inc. (Nasdaq: ZIP), the world’s leading car-sharing network, released its second annual independent study of Millennials (18-34-year olds), which examines this generation’s attitudes toward personal transportation and car ownership. The Zipcar membership base ranges in age from 18 to 80s; however, Millennials are an important segment for Zipcar, comprising more than half of all members. Millennials account for about 23 percent of the general population,
according to the 2010 US Census.
Artificial intelligence (AI) is everywhere, promising self-driving cars, medical breakthroughs, and new ways of working. But how do you separate hype from reality? How can your company apply AI to solve real business problems?
Here’s what AI learnings your business should keep in mind for 2017.
Study: The Future of VR, AR and Self-Driving CarsLinkedIn
We asked LinkedIn members worldwide about their levels of interest in the latest wave of technology: whether they’re using wearables, and whether they intend to buy self-driving cars and VR headsets as they become available. We asked them too about their attitudes to technology and to the growing role of Artificial Intelligence (AI) in the devices that they use. The answers were fascinating – and in many cases, surprising.
This SlideShare explores the full results of this study, including detailed market-by-market breakdowns of intention levels for each technology – and how attitudes change with age, location and seniority level. If you’re marketing a tech brand – or planning to use VR and wearables to reach a professional audience – then these are insights you won’t want to miss.
This document describes a carpool matching application. It includes user cases like registering, modifying profile information, posting ride listings, and sending messages. It also includes functional structures like user management, posting and searching for rides. An entity-relationship diagram shows members having attributes like gender, name, age etc. and relationships like drivers having cars. It also includes flow structures showing the process of members registering, modifying profiles, searching for rides, and drivers and passengers requesting rides. Finally, it evaluates options for the application's server, database, maps, and push notification technologies.
The document discusses updating a work breakdown structure (WBS) and Gantt chart, creating Google Cloud Messaging (GCM) APIs, getting a server key, and adding code to an Android manifest file. It also mentions declaring custom permissions and adding a broadcast receiver and intent service for receiving GCM messages.
This document is a Gantt chart that outlines the project schedule for two people, Lee Won Geol and Cha Chun, from July 1st to November 30th. It maps out the work breakdown structure and lists tasks such as the WBS, Gantt chart, map, bulletin board, GCM, personal info, server, DB, UI, testing, debugging, final report, and presentation with estimated start and end dates.
The document outlines the goals and requirements for developing a carpooling application for students in Handong, South Korea. It aims to provide a platform for people to arrange carpools to save on transportation costs and time. The application must operate stably on Android devices and accurately display user locations, search results, maps and routes. It should link to Google Maps and be designed within a 500 hour timeframe and budget. The success of the design will be evaluated based on criteria like location and content accuracy, speed of maps and searches, user interface quality, and system crashes.
The document outlines the requirements for designing a carpooling application for Android. It includes:
1) The problem is to design an Android OS application that uses GPS to enable carpooling by recording user information in a server database and matching users.
2) The goals are for the app to operate stably and conveniently while being economically affordable.
3) Constraints include finishing within budget and 500 hours while supporting maps from Handong to Yukgurri and preventing private information leaks.
4) Criteria for measuring success are the app's stability, accuracy of user positioning, and reliability of contact services.
This document discusses Google Map APIs, Google Cloud Messaging (GCM), and how to embed Google Maps in an Android application. It provides details on applying for a Google Maps API key, adding internet permissions, and using location services like GPS, WiFi and cell ID. It also includes a link to an example carpool application on the Google Play Store that demonstrates these concepts.
The document outlines the design purpose, objectives, and constraints of a carpool application. The design purpose is to deliver convenience and save resources by connecting people with shared destinations. The objectives include ensuring system stability, functionality like member registration and maps, and marketability. Constraints include using the Android system, including a member management system, a 1-year deadline, cost restrictions, supporting certain routes, and enabling connection through cell phone numbers.
9 Steps to 9% GDP Growth Rate in 9 months in Rs 900 Crore!
Spend 9 Minutes with open mind!
Make in India,Letter of Credit,Skill India,Budget,Fortune 1000 companies,PSU's,G-20 countries,Theory plus Practice,Innovation
This document provides leisure activity options for Felicita, an 84-year-old woman with mild dementia and low vision, in the San Jose area. It lists museums, theaters, parks, libraries, a senior center, gardens, and art studios along with their locations, admission costs if any, and contact information to provide recreational opportunities for Felicita. Transportation assistance is also available through the local Senior Outreach Program.
A group of 40 people will carpool for 3 hours to spend Semana Santa in Cordoba and Sevilla. They will travel 210km over 4 nights and 3 days, sharing rides and accommodations. The trip encourages participants to experience the passion and traditions of Semana Santa.
Agrideas의 첫번째 단계인 Idea Seed를 골라내기 위한 Ideaseed Card. 사업아이템/아이디어는 본인이 관심있는 것, 즐겨하는 것, 또는 미래에 하고 싶은 것에서 출발하죠. idea seed에 나와있는 category를 보고 먼저 team에서 가장 관심있는 seed를 골라보세요! (전체 21개의 Idea Seed)
Millennials & Driving: A Survey Commissioned by ZipcarZipcar_Inc
Zipcar, Inc. (Nasdaq: ZIP), the world’s leading car-sharing network, released its second annual independent study of Millennials (18-34-year olds), which examines this generation’s attitudes toward personal transportation and car ownership. The Zipcar membership base ranges in age from 18 to 80s; however, Millennials are an important segment for Zipcar, comprising more than half of all members. Millennials account for about 23 percent of the general population,
according to the 2010 US Census.
Artificial intelligence (AI) is everywhere, promising self-driving cars, medical breakthroughs, and new ways of working. But how do you separate hype from reality? How can your company apply AI to solve real business problems?
Here’s what AI learnings your business should keep in mind for 2017.
Study: The Future of VR, AR and Self-Driving CarsLinkedIn
We asked LinkedIn members worldwide about their levels of interest in the latest wave of technology: whether they’re using wearables, and whether they intend to buy self-driving cars and VR headsets as they become available. We asked them too about their attitudes to technology and to the growing role of Artificial Intelligence (AI) in the devices that they use. The answers were fascinating – and in many cases, surprising.
This SlideShare explores the full results of this study, including detailed market-by-market breakdowns of intention levels for each technology – and how attitudes change with age, location and seniority level. If you’re marketing a tech brand – or planning to use VR and wearables to reach a professional audience – then these are insights you won’t want to miss.
This document describes a carpool matching application. It includes user cases like registering, modifying profile information, posting ride listings, and sending messages. It also includes functional structures like user management, posting and searching for rides. An entity-relationship diagram shows members having attributes like gender, name, age etc. and relationships like drivers having cars. It also includes flow structures showing the process of members registering, modifying profiles, searching for rides, and drivers and passengers requesting rides. Finally, it evaluates options for the application's server, database, maps, and push notification technologies.
The document discusses updating a work breakdown structure (WBS) and Gantt chart, creating Google Cloud Messaging (GCM) APIs, getting a server key, and adding code to an Android manifest file. It also mentions declaring custom permissions and adding a broadcast receiver and intent service for receiving GCM messages.
This document is a Gantt chart that outlines the project schedule for two people, Lee Won Geol and Cha Chun, from July 1st to November 30th. It maps out the work breakdown structure and lists tasks such as the WBS, Gantt chart, map, bulletin board, GCM, personal info, server, DB, UI, testing, debugging, final report, and presentation with estimated start and end dates.
The document outlines the goals and requirements for developing a carpooling application for students in Handong, South Korea. It aims to provide a platform for people to arrange carpools to save on transportation costs and time. The application must operate stably on Android devices and accurately display user locations, search results, maps and routes. It should link to Google Maps and be designed within a 500 hour timeframe and budget. The success of the design will be evaluated based on criteria like location and content accuracy, speed of maps and searches, user interface quality, and system crashes.
The document outlines the requirements for designing a carpooling application for Android. It includes:
1) The problem is to design an Android OS application that uses GPS to enable carpooling by recording user information in a server database and matching users.
2) The goals are for the app to operate stably and conveniently while being economically affordable.
3) Constraints include finishing within budget and 500 hours while supporting maps from Handong to Yukgurri and preventing private information leaks.
4) Criteria for measuring success are the app's stability, accuracy of user positioning, and reliability of contact services.
This document discusses Google Map APIs, Google Cloud Messaging (GCM), and how to embed Google Maps in an Android application. It provides details on applying for a Google Maps API key, adding internet permissions, and using location services like GPS, WiFi and cell ID. It also includes a link to an example carpool application on the Google Play Store that demonstrates these concepts.
The document outlines the design purpose, objectives, and constraints of a carpool application. The design purpose is to deliver convenience and save resources by connecting people with shared destinations. The objectives include ensuring system stability, functionality like member registration and maps, and marketability. Constraints include using the Android system, including a member management system, a 1-year deadline, cost restrictions, supporting certain routes, and enabling connection through cell phone numbers.
12. Message Information Pushing
1). XMPP
Protocol is Mature, Strong Scalability
More complicated cost more network flow and battery
2).MQTT
Protocol is concise, cost less network flow and battery
Not open source, complicated
3).GCM
Offering by Google, simple, without implementation and
deployment of server
Must greater than Android 2.2
기능 구현 방안
13. GCM (Google Cloud Messaging)
Simple, do not need implementation and
deployment of the server
Android 4.0
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