A simple introduction for basic use of git and git hub.
Since I'm a rookie to Git, If there is anything wrong, please contact me.
Hope you'll enjoy it.
A Git tutorial with example and demo.
YouTube Videos
Day 1: https://www.youtube.com/watch?v=XBreuLi79bk
Day 2: https://www.youtube.com/watch?v=5e6i3r5Vz34
Open Source Collaboration With Git And Git HubNick Quaranto
This document provides an overview of open source collaboration using Git and GitHub. It discusses the history and goals of Git, how it works internally with blobs, trees and commits, and how it supports distributed and multiple workflows like centralized, integration manager and benevolent dictator models. It also provides instructions on how to contribute to open source projects by forking repositories on GitHub, making changes locally, pushing to your fork and submitting a pull request.
The document proposes LTE Release 10 and beyond (LTE-Advanced) as a candidate radio interface technology for IMT-Advanced. It provides an overview of 3GPP's standardization activities, including LTE Release 8 and the development of LTE-Advanced. Key requirements for LTE-Advanced to meet IMT-Advanced specifications are described. The technical approaches being standardized in 3GPP to achieve the requirements, such as carrier aggregation and advanced MIMO, are outlined. The structure of 3GPP's submission documents to ITU-R for the evaluation of LTE-Advanced as an IMT-Advanced technology are also summarized.
A Git tutorial with example and demo.
YouTube Videos
Day 1: https://www.youtube.com/watch?v=XBreuLi79bk
Day 2: https://www.youtube.com/watch?v=5e6i3r5Vz34
Open Source Collaboration With Git And Git HubNick Quaranto
This document provides an overview of open source collaboration using Git and GitHub. It discusses the history and goals of Git, how it works internally with blobs, trees and commits, and how it supports distributed and multiple workflows like centralized, integration manager and benevolent dictator models. It also provides instructions on how to contribute to open source projects by forking repositories on GitHub, making changes locally, pushing to your fork and submitting a pull request.
The document proposes LTE Release 10 and beyond (LTE-Advanced) as a candidate radio interface technology for IMT-Advanced. It provides an overview of 3GPP's standardization activities, including LTE Release 8 and the development of LTE-Advanced. Key requirements for LTE-Advanced to meet IMT-Advanced specifications are described. The technical approaches being standardized in 3GPP to achieve the requirements, such as carrier aggregation and advanced MIMO, are outlined. The structure of 3GPP's submission documents to ITU-R for the evaluation of LTE-Advanced as an IMT-Advanced technology are also summarized.
LTE and LTE advanced Performance ( By 3GPP RAN Chairmans’ ) BP Tiwari
The document proposes LTE Release 10 and beyond (LTE-Advanced) as a candidate radio interface technology for IMT-Advanced. It provides an overview of 3GPP standardization activities, including LTE Release 8 which established the foundation, and LTE-Advanced which aims to meet IMT-Advanced requirements through further evolution. The proposal outlines motivations for LTE-Advanced and the 3GPP study underway to identify technologies to achieve requirements and targets.
This document provides an overview of LTE architecture and interfaces. It begins with a brief history of 3GPP and IEEE standards evolutions leading to LTE. It then discusses the key capabilities and performance targets of LTE such as higher data rates, lower latency, and improved spectrum efficiency. The document outlines the LTE system architecture including the Evolved UTRAN and Evolved Packet Core. It describes the network interfaces between these components and other 3GPP networks for interworking and roaming. In summary, the document covers the evolution and standardization history driving LTE, its important technical capabilities, and high-level network architecture.
Long Term Evolution (LTE) is the next generation of mobile broadband technology that provides higher data rates and network throughput compared to 3G. LTE networks use OFDM and SC-FDMA for downlink and uplink, respectively, along with MIMO and an all-IP architecture to improve performance. The network elements include eNBs, SGWs, PDN GWs and MMEs. For operators, LTE provides an opportunity to increase ARPU through new applications and services while decreasing CCPU through an all-IP infrastructure. Mass deployment of LTE is expected to begin around 2012, with LTE Advanced enabling data rates up to 1 Gbps.
1. A brief introduction of Git (SVN, CVCS, DVCS etc.)
2. Git/TortoiseGit/msysgit installations
3. A complete guide of Git operations
4. The Branches and HEAD
5. Remote and local repository
6. Rebase and submodules etc.
7. Some Skills and Experience