Wouldn't canards sitting on the same plane as the main wing act like tailplanes but smaller? I don't know much about aerodynamics, but if that were the case there's the possibility that using a same-plane delta canard instead of a tailplane could serve as a weight reduction measure?
There are many myths about canards that you will find on the internet claimed by people who love the Eurocanards or J-10, this does not mean that canards are not useful, they are useful and in some configurations you can get outstanding aircraft.
If you look at the basics you will find that canards have advantages and disadvantages.
In modern fighter aircraft canards are used as vortex generators, it means as a way to increase wing lift at high AoA, in most cases are used on Delta wing aircraft, like the Rafale and J-10.
Canards are used also as pitch control, in this case they are very useful as a pitch up force in turns, this gives an aircraft excellent instantaneous turn rates, they can also be used as STOL devices reducing Take off or landing approaching speeds.
In the case of the Su-34 and B-1B, they are used as turbulance dampers at low altitude and high speed.
Now these are canard`s main advantages, the main disadvantage is they reduce wing lift at level flight, thus having more drag.
Shape and position are also constraigns and limits they have, the best position for a canard is above wing level, thus its low preassure vortex increases wing lift at high AoA.
The Shape is also very important, for an aircraft in order to reduce drag at level flight while using a canard , it needs a small high aspect canard with weak wingtip vortex downwash but this means it will generate less wing lift at high AoA due to the same weaker wingtip vortex.
If the canard needs to create more lift at high Ao A a big low aspect canard is used but this generate more drag at level flight.
canard wing distance is also important a closer position to the wing means more drag and less lift at level flight but better wing lift at high AoAs.
On aircraft with tailplanes you can use LERXes sometimes called wing strakes and LEVCONs to increase wing lift at high AoA, these wing strakes generate low preassue vortices like canards do therefore increasing wing lift at high AoA.
The LERX by its self can not be uses as a pitch control device, but if used on an aircraft with tailplanes that disadvantage does not exist.
The LERX does not generate downwash, and the same is for the LEVCON, reducing thus drag and wing size.
Canards also limit the max lift potential of the wing, this makes canards highly mission dependant, as you can see stealth aircraft have shape and position limitations that will impact an aircraft with canards in a greater way than one with tailplanes.
Now the use of thrust vectoring aids by reducing the pitch control tailplanes do thus reducing trimming drag and allowing the tailplanes to be used as roll devices.
In the T-50 you will find it has LEVCONs and LERXes, so these devices are increasing wing lift at high AoA as a canard would do but without the canard generated downwash.
In both the F-22 and T-50 you will find the use of thrust vectoring for pitch and yaw control.
So in my opinion i do not think the JXX will have automatically canards, most representations i have seen are early studies or fan art, could it use canards, yes it could, but it will be more difficult to achieve the same level of performance the T-50 has achieved without the use of thrust vectoring control anf i do not think it will represent a better solution, the T-50 is very advanced more than a simple canard delta wing concept might suggest to many J-10 enthusiasts.
