The background to the question: 

$$a^4+b^4=c^4+d^4 \label{1}\tag 1 $$

Tito Piezas, Tomita & others have recently given some parametric solutions on Math stack exchange & Math overflow. In math literature there are parametric solutions given in Dickson’s book (vol 2), which includes solutions by Euler & others. Solutions are shown by Zajta (In a AMS journal paper). For degree two we have general solution for $a^2+b^2=c^2+d^2.$ For degree three $a^3+b^3=c^3+d^3$ two general solution has been given. One by Noam Elkies & second by Ajai Choudhry. Even though this problem of the quartic equation (# \ref{1} above) has been around since the time of Euler (for over 200) years a general solution has been evasive. Eight relevant Links are shown below:

* Noam Elkies " [Complete cubic parametrization of the Fermat cubic surface](https://people.math.harvard.edu/%7Eelkies/4cubes.html) ".
* Tito Piezas III " https://mathoverflow.net/questions/455960 ".
* Tito Piezas III " [Finding rational points on the elliptic curve for $A^4+B^4 = C^4+D^4$?](https://math.stackexchange.com/questions/4779869) ".
* emacs drives me nuts "[Finding formula that solves $w^4+x^4=y^4+z^4$ over the integers.](https://math.stackexchange.com/questions/4255315)"
* Edward Brisse "[Identities Of Equal Sums Of Like Power](http://euler.free.fr/identities.htm)"
* Wolfram MathWorld "[Diophantine Equation 4th Powers](https://mathworld.wolfram.com/DiophantineEquation4thPowers)"
* Aurel J. Zajta "[Solutions of the Diophantine equation $A^4+B^4 = C^4+D^4$](https://www.ams.org/journals/mcom/1983-41-164)", Mathematics of Computation 41, 635-659 (1983), 
[MR717709](https://mathscinet.ams.org/mathscinet-getitem?mr=717709), [Zbl 0525.10011](https://zbmath.org/0525.10011)
* [Jarosław Wróblewski's home page](http://www.math.uni.wroc.pl/~jwr).

* [Ajai Choudhry paper for the general solution of the cubic (3-2-2) equation, link is below, select item # 14]

 https://sites.google.com/view/ajaichoudhry/publications

Remark: 

There are more than a couple of dozen parametric solutions available for equation \eqref{1}. There is a possibility that one of them could be a general solution or maybe not. There are two options. First is, someone needs to write an algorithm to see if the (1420 different) numerical solutions (link as shown above & given at Jaroslaw Wrobelewski website -uni.wroc) are satisfied by one of the published parametric solution. The other option is that someone needs to give a general solution along with a proof.  Any response to the above will be appreciated.