1 files changed, 3 insertions, 2 deletions

diff --git a/doc/paper/taler.tex b/doc/paper/taler.tex
index 59a093015..5baa5a81e 100644
--- a/doc/paper/taler.tex
+++ b/doc/paper/taler.tex
@@ -816,9 +816,10 @@ generator of the elliptic curve.
             that represents the public key $T^{(i)}_p$ of the transfer key $T^{(i)}$. This is basically DH between coin and transfer key.),
     \end{itemize}
     and commits $\langle C', \vec{T}, \vec{C}, \vec{b} \rangle$ to disk.
-  \item The customer computes $B^{(i)} := B_{b^{(i)}}(C^{(i)}_p)$  for $i \in 1,\ldots,\kappa$ and sends a commitment
+  \item The customer computes $B^{(i)} := B_{b^{(i)}}(C^{(i)}_p)$  for $i \in \{1,\ldots,\kappa\}$ and sends a commitment
     $S_{C'}(\vec{E}, \vec{B}, \vec{T_p}))$ to the mint.
-  \item The mint generates a random $\gamma$ with $1 \le \gamma \le \kappa$ and
+  \item The mint generates a random\footnote{Auditing processes need to assure $\gamma$ is unpredictable until this time to 
+    prevent the mint from assisting tax evasion.} $\gamma$ with $1 \le \gamma \le \kappa$ and
     marks $C'_p$ as spent by committing
     $\langle C', \gamma, S_{C'}(\vec{E}, \vec{B}, \vec{T}) \rangle$ to disk.
   \item The mint sends $S_K(C'_p, \gamma)$ to the customer.\footnote{Instead of $K$, it is also