Pinned Repositories
Base-Station-Simulation
Chirp-TwitterLike-APP
Controller-Module-Design-for-SDN
Designed an IGMP handler to allow client multicast proposals to be deployed in a live OpenFlow SDN network. Confirmed multicast operation using VLC server and dynamic recalculation of Dijkstra’s least cost path
Java_Network_Application
Network-Programming
Restaurant-Website-
Dynamic_Patch_Antenna
A conventional patch antenna that can alter its radiation pattern without any passive element is impractical to implement. Also a conventional microstrip antenna has a steady and constant resonant frequency which cannot be altered. The main objective of this paper is to present an idea of an antenna array structure which can vary its radiation pattern using switching technology. This antenna structure consists of array of four patches (Dynamic Patch Antenna Array-DPAA) placed at an optimized distance with respect to wavelength radiating at 2.437 GHz which is the center frequency of 6th Wi-Fi channel. With such configuration, the main beam radiated by the array can be steered due to the effect of mutual coupling between the driven elements and the parasitic elements (directors). The active feed network will consist of a 1:4 equal power divider (Wilkinson’s Power Divider). The antenna radiation characteristics are simulated using Agilent’s Advanced Design System (ADS) software. The results confirm that the main beam can be pointed in the following directions depending on the energizing combination of patches: 0°, 4°, 25°, 335°(-25°), 356°(-4°). The future scope is to make the beam achieve high directivity and narrow beam width thereby achieving beam steering control using RF switches which will be autonomously controlled by software coding.
certified-kubernetes-administrator-course
Certified Kubernetes Administrator - CKA Course
CKAD-exercises
A set of exercises to prepare for Certified Kubernetes Application Developer exam by Cloud Native Computing Foundation
ckad-prep-notes
List of resources and notes for passing the Certified Kubernetes Application Developer (CKAD) exam.
riteshsarode's Repositories
riteshsarode/Docker_and_Kubernetes
riteshsarode/Coding_Patterns
riteshsarode/kubernetes-the-hard-way
Bootstrap Kubernetes the hard way on Vagrant on Local Machine. No scripts.
riteshsarode/CKAD-exercises
A set of exercises to prepare for Certified Kubernetes Application Developer exam by Cloud Native Computing Foundation
riteshsarode/certified-kubernetes-administrator-course
Certified Kubernetes Administrator - CKA Course
riteshsarode/ckad-prep-notes
List of resources and notes for passing the Certified Kubernetes Application Developer (CKAD) exam.
riteshsarode/Kubernetes_public
Public repo of Kubernetes
riteshsarode/Java_Network_Application
riteshsarode/jenkins-course
This is the repository with all the resources for the Jenkins training on Udemy
riteshsarode/Dynamic_Patch_Antenna
A conventional patch antenna that can alter its radiation pattern without any passive element is impractical to implement. Also a conventional microstrip antenna has a steady and constant resonant frequency which cannot be altered. The main objective of this paper is to present an idea of an antenna array structure which can vary its radiation pattern using switching technology. This antenna structure consists of array of four patches (Dynamic Patch Antenna Array-DPAA) placed at an optimized distance with respect to wavelength radiating at 2.437 GHz which is the center frequency of 6th Wi-Fi channel. With such configuration, the main beam radiated by the array can be steered due to the effect of mutual coupling between the driven elements and the parasitic elements (directors). The active feed network will consist of a 1:4 equal power divider (Wilkinson’s Power Divider). The antenna radiation characteristics are simulated using Agilent’s Advanced Design System (ADS) software. The results confirm that the main beam can be pointed in the following directions depending on the energizing combination of patches: 0°, 4°, 25°, 335°(-25°), 356°(-4°). The future scope is to make the beam achieve high directivity and narrow beam width thereby achieving beam steering control using RF switches which will be autonomously controlled by software coding.
riteshsarode/Controller-Module-Design-for-SDN
Designed an IGMP handler to allow client multicast proposals to be deployed in a live OpenFlow SDN network. Confirmed multicast operation using VLC server and dynamic recalculation of Dijkstra’s least cost path
riteshsarode/Base-Station-Simulation
riteshsarode/Chirp-TwitterLike-APP
riteshsarode/GroupFlow
Multicast over SDN with OpenFlow.
riteshsarode/Restaurant-Website-
riteshsarode/Network-Programming