Throughout parts one and two I discussed the concepts of IoT and (I)IoT, (big) data analytics, data placement, the triggering of workflows and I had a more detailed look at the LPWAN and LTE (cellular) type networks. I also included a cheat sheet where I highlighted 6 of the most common (and upcoming) (I)IoT networks including their main characteristics and features. Today I’d like to focus on the various individual networks mentioned like: Sigfox, LoRa, NB-IOT etc. and talk a bit more about their background and future potential.
All ‘things’ connected, the ‘I’ in the IoT – a closer look. Part two!
In part one of this series I talked about some of the differences between IoT and (I)IoT, while also summing up multiple variables that play an important role when it comes to the network involved. Throughout this post I’d like to zoom in a bit more on (big) data analytics, the triggering of workflows and where our data could, or should reside. Next to that I will highlight some of the most popular (I)IoT network types today with a main focus on LPWAN and LTE (cellular/4G) technologies including some of their main characteristics, pros and cons. And, oh yeah, I’ve also included another potentially helpful cheat sheet, for your convenience – you’ll find it near the end.
XenDesktop 7 Site Configuration Database… What about it?
XenDesktop 7, and some of the earlier XD editions as well, is based on the FlexCast Management Architecture or FMA in short. Simply put you could state that the FMA is primarily made up out of Delivery Controllers and Agents, of-course there’s more to it but for now lets just leave it at that. Have a look here for a complete overview on FMA. Delivery Agents are installed on all virtual and or physical machines provisioned by XenDesktop 7, they communicate (and register themselves) with the Delivery Controller(s) which on their turn contact the license server and communicate with the central Site configuration database, lets have a closer look.