1 files changed, 5 insertions, 4 deletions

diff --git a/2019-ICA3PP.org b/2019-ICA3PP.org
index edded9a..c8e93b8 100644
--- a/2019-ICA3PP.org
+++ b/2019-ICA3PP.org
@@ -315,7 +315,7 @@ and transmission technologies.
    randomly in a rectangle of $400m^2$ around the AP which corresponds
    to a typical use case for a home environment. All
    the cell nodes employ the default WIFI energy model provided by ns3. The different
-   energy values used by the energy model are provided in Table 1. These parameters
+   energy values used by the energy model are provided in Table \ref{tab:params}. These parameters
    were extracted from previous work\cite{halperin_demystifying_nodate,li_end--end_2018} On
    IEEE 802.11n. Besides, we suppose that the energy source of each
    nodes is not limited during the experiments. Thus each node
@@ -350,6 +350,7 @@ and transmission technologies.
          Pkt (Tx/Rx)    & 192.0nJ         \\ \bottomrule
        \end{tabular}
      }
+     \label{tab:params}
    \end{table}
    #+END_EXPORT
 
@@ -366,7 +367,7 @@ and transmission technologies.
    model for the dynamic energy consumption
    \cite{sivaraman_profiling_2011,Serrano2015}, and it includes also a static energy consumption.
    The different values used to instantiate the ECOFEN energy model for the
-   network part are shown in left part of Table 1 and come from previous work
+   network part are shown in left part of Table \ref{tab:params} and come from previous work
    \cite{cornea_studying_2014-1}.
 
 ** Cloud Part
@@ -571,7 +572,7 @@ In our case with small and sporadic network traffic, these results show that wit
 
    Concerning the IoT part, we include the entire IoT device power
    consumption. Indeed, in our targeted low-bandwidth IoT application,
-   the sensor is dedicated to this application. From Table 1, one can
+   the sensor is dedicated to this application. From Table \ref{tab:params}, one can
    derive that the static power 
    consumption of one IoT sensor is around 0.9 Watts. Its dynamic part
    depends on the transmission frequency.
@@ -608,7 +609,7 @@ In our case with small and sporadic network traffic, these results show that wit
    summarizes the parameters used in our model, they are taken from
    \cite{mahadevan_power_2009,Hassidim2013}. These are the parameters
    used in our formula to compute the values that we used in the
-   simulations and that are presented in left part of Table 1. 
+   simulations and that are presented in left part of Table \ref{tab:params}.