Doesn't need much research - it wouldn't work !
It can help make a system work better (by varying rad temps with outside temp, it can minimise the problems of 'all or nothing' hot rads in mild weather and not enough heat in cold weather), but without internal sensors/controls it can't work (except in certain very controlled and consistent settings that don't include domestic properties) to effectively control room temperatures.
Example:
Our lounge is upstairs and has large windows and a high vaulted ceiling. When the sun comes out it's like a greenhouse and doesn't need heat - even if it's cold outside. But if the sun isn't out, it can need heat even in warm weather.
And for good measure, because of the menagerie, the dining room door at the bottom of the stairs is normally open, meaning the the dining room heating effectively heats the lounge - except when it doesn't because we've shut the door to be cosy downstairs.
And that's just the one room with multiple disturbances.
The dining room is semi-open with the kitchen. So the kitchen can be a heat sink sucking heat away, or it can (when cooking for a big meal) put so much heat across that we need to open the window. And when the door is open, it can stay cold as the heat buggers off upstairs.
Our spare bedroom is also my office most of the time. When I'm WFH it needs heating during the day. When it's a bedroom (the infrequent occasions we have guests) it needs a little heat early morning and evening. When neither applies it just needs enough heat to avoid damp problems.
So if anyone suggests weather comp can control that, I can challange them to explain why they think the laws of physics don't apply
I strongly suspect the simplest way of managing multiple rooms/zones is :
Each room/zone has an internal sensor/controller that sets a flow temperature demand. This may include an element of weather comp.
The heat pump then provides the highest of the demanded flow temperatures. This will be more than some room/zones need so they will be shut off via rad/zone valves when they reach set temperature.
So the heat pump should run continuously until it either bottoms out at min output power, or all zones/rooms are satisfied - in either case it means cycling unless you have the ability to dump some excess geat into (e.g.) a DHW cylinder.
In our house I've installed a thermal store (heated by gas boiler) - SWMBO likes the idea of a wood burner, we've room for solar panels when I have the spare cash, and of course there's scope for adding a heat pump. The CH loop runs off this with modulating pump and mixer valve. My aim is a control setup as I've described where the CH flow temp is controlled to suit the highest requirement, and other rooms turn on/off as required - with wall mounted 'stat' in each room.
The store temp can then be controlled so as to meet the higher of CH or DHW temps (there's multiple sensors to suit). If heat pump added, the control regime could be to keep adding heat to the store until COP drops, then turn off for a longer period until the store temp drops again
It's all going to need custom controls (I doubt there's anything on the market at an affordabke price), and I'm struggling to find time to sit down and do some Arduino programming
