Pinned Repositories
anyplace
A free and open Indoor Navigation Service with superb accuracy!
docker-magento2-cron
find3
High-precision indoor positioning framework, version 3.
find3-android-scanner
An android app that scans Bluetooth and WiFi for FIND3
Indoor-Positioning-System
An indoor positioning system (IPS) is a system to locate objects or people inside a building using radio waves, magnetic fields, acoustic signals, or other sensory information collected by mobile devices. Global navigation satellite systems (GPS or GNSS) are generally not suitable to establish indoor locations, since microwaves will be attenuated and scattered by roofs, walls and other objects. However, in order to make positioning signals ubiquitous, integration between GPS and indoor positioning can be made. My solution for Indoor Positioning system is based on "Time of arrival" method. For this i had used Ultrasonic sensor(HC-SR04) connected with arduino atmega 2560 (and a cardboard for placing a object on it to determine location of this object) as they cost very less and gives very precise information (values). this hardware setup is connected with iot-platform(take your own platform and change the code accordingly; i.e ; url and sensor observation links) , in this way location of object placed on cardboard can be seen remotely from anywhere in the world as i had used web interface for showing location. There is possibility of making it so much advance by adding some additional feature and additional hardware. One of the most important feature that i want to add is that we can also able see the 'orientation' of object if moving along with the direction.
kubernetes-ci-cd
https://www.linux.com/blog/learn/chapter/Intro-to-Kubernetes/2017/5/set-cicd-pipeline-kubernetes-part-1-overview
Magento-2---MySQL-Cluster
Magento 2 CE SQL cluster enabled Magento 2 CE to work with database replication
magento2-patch
magestack-queue
NSTech_LimitProductQuantityPerCustomerPerDay
tommwu's Repositories
tommwu/op-terraform-provision-eks-cluster
tommwu/anyplace
A free and open Indoor Navigation Service with superb accuracy!
tommwu/find3
High-precision indoor positioning framework, version 3.
tommwu/kubernetes-ci-cd
https://www.linux.com/blog/learn/chapter/Intro-to-Kubernetes/2017/5/set-cicd-pipeline-kubernetes-part-1-overview
tommwu/magento2-patch
tommwu/magestack-queue
tommwu/NSTech_LimitProductQuantityPerCustomerPerDay
tommwu/NSTech_PlatformCode
tommwu/find3-android-scanner
An android app that scans Bluetooth and WiFi for FIND3
tommwu/Magento-2---MySQL-Cluster
Magento 2 CE SQL cluster enabled Magento 2 CE to work with database replication
tommwu/zh_hant_hk
1.0.1
tommwu/docker-magento2-cron
tommwu/Indoor-Positioning-System
An indoor positioning system (IPS) is a system to locate objects or people inside a building using radio waves, magnetic fields, acoustic signals, or other sensory information collected by mobile devices. Global navigation satellite systems (GPS or GNSS) are generally not suitable to establish indoor locations, since microwaves will be attenuated and scattered by roofs, walls and other objects. However, in order to make positioning signals ubiquitous, integration between GPS and indoor positioning can be made. My solution for Indoor Positioning system is based on "Time of arrival" method. For this i had used Ultrasonic sensor(HC-SR04) connected with arduino atmega 2560 (and a cardboard for placing a object on it to determine location of this object) as they cost very less and gives very precise information (values). this hardware setup is connected with iot-platform(take your own platform and change the code accordingly; i.e ; url and sensor observation links) , in this way location of object placed on cardboard can be seen remotely from anywhere in the world as i had used web interface for showing location. There is possibility of making it so much advance by adding some additional feature and additional hardware. One of the most important feature that i want to add is that we can also able see the 'orientation' of object if moving along with the direction.