% Abbreviations for technical terms. \newglossaryentry{add}{ name=ADD, description={Average Daily Demand} } \newglossaryentry{cart}{ name=CART, description={Classification and Regression Trees} } \newglossaryentry{cv}{ name=CV, description={Cross Validation} } \newglossaryentry{mase}{ name=MASE, description={Mean Absolute Scaled Error} } \newglossaryentry{mdrp}{ name=MDRP, description={Meal Delivery Routing Proplem} } \newglossaryentry{ml}{ name=ML, description={Machine Learning} } \newglossaryentry{pdp}{ name=PDP, description={Pickup and Delivery Problem} } \newglossaryentry{rf}{ name=RF, description={Random Forest} } \newglossaryentry{stl}{ name=STL, description={Seasonal and Trend Decomposition using Loess} } \newglossaryentry{svm}{ name=SVM, description={Support Vector Machine} } \newglossaryentry{svr}{ name=SVR, description={Support Vector Regression} } \newglossaryentry{udp}{ name=UDP, description={Urban Delivery Platform} } \newglossaryentry{vrp}{ name=VRP, description={Vehicle Routing Problem} } % Model names. \newglossaryentry{naive}{ name=naive, description={(Seasonal) Na\"{i}ve Method} } \newglossaryentry{fnaive}{ name=fnaive, description={"Flexible" STL Decomposition, with tuned ns parameter} } \newglossaryentry{pnaive}{ name=pnaive, description={"Periodic" STL Decomposition, with ns parameter set to large number} } \newglossaryentry{trivial}{ name=trivial, description={Trivial Method} } \newglossaryentry{hcroston}{ name=hcroston, description={Croston's Method, trained on horizontal time series} } \newglossaryentry{hholt}{ name=hholt, description={Holt's Linear Trend Method, trained on horizontal time series} } \newglossaryentry{vholt}{ name=vholt, description={Holt's Linear Trend Method, trained on vertical time series} } \newglossaryentry{rtholt}{ name=rtholt, description={Holt's Linear Trend Method, (re)trained on vertical time series} } \newglossaryentry{hhwinters}{ name=hhwinters, description={Holt-Winter's Seasonal Method, trained on horizontal time series} } \newglossaryentry{hses}{ name=hses, description={Simple Exponential Smoothing Method, trained on horizontal time series} } \newglossaryentry{vses}{ name=vses, description={Simple Exponential Smoothing Method, trained on vertical time series} } \newglossaryentry{rtses}{ name=rtses, description={Simple Exponential Smoothing Method, (re)trained on vertical time series} } \newglossaryentry{hsma}{ name=hsma, description={Simple Moving Average Method, trained on horizontal time series} } \newglossaryentry{htheta}{ name=htheta, description={Theta Method, trained on horizontal time series} } \newglossaryentry{vtheta}{ name=vtheta, description={Theta Method, trained on vertical time series} } \newglossaryentry{rttheta}{ name=rttheta, description={Theta Method, (re)trained on vertical time series} } \newglossaryentry{hets}{ name=hets, description={ETS State Space Method, trained on horizontal time series} } \newglossaryentry{vets}{ name=vets, description={ETS State Space Method, trained on vertical time series} } \newglossaryentry{rtets}{ name=rtets, description={ETS State Space Method, (re)trained on vertical time series} } \newglossaryentry{harima}{ name=harima, description={Autoregressive Integrated Moving Average Method, trained on horizontal time series} } \newglossaryentry{varima}{ name=varima, description={Autoregressive Integrated Moving Average Method, trained on vertical time series} } \newglossaryentry{rtarima}{ name=rtarima, description={Autoregressive Integrated Moving Average Method, (re)trained on vertical time series} } \newglossaryentry{vrfr}{ name=vrfr, description={Random Forest Regression Method, trained on vertical time series} } \newglossaryentry{vsvr}{ name=vsvr, description={Support Vector Regression Method, trained on vertical time series} } \printglossaries