\documentclass[10pt, draftclsnofoot,onecolumn]{IEEEtran} \usepackage{todonotes} \usepackage{caption} \usepackage{pgfgantt} \linespread{1} \begin{document} \title{Fenceless Grazing Requirements} \author{Danila Fedorin \and Matthew Sessions \and Ryan Alder} \maketitle % From: ISO/IEC/IEEE 29148:2011, page 44 % 1. Introduction % 1.1 System purpose % 1.2 System scope % 1.3 System overview % 1.3.1 System context % 1.3.2 System functions % 1.3.3 User characteristics % 1.4 Definitions % 2. References % 3. System requirements % 3.1 Functional requirements % 3.2 Usability requirements % 3.3 Performance requirements % 3.4 System interface % 3.5 System operations % 3.6 System modes and states % 3.7 Physical characteristics % 3.8 Environmental conditions % 3.9 System security % 3.10 Information management % 3.11 Policies and regulations % 3.12 System life cycle sustainment % 3.13 Packaging, handling, shipping and transportation % 4. Verification (parallel to subsections in Section 3) \section{Introduction} \subsection{System purpose} The purpose of the Fenceless Grazing Collar (FGC) system is to reduce the need for human supervision in farming through the tracking and automated management of individual farm animals, controlled by humans through a remote digital system. \todo{This probably needs to be expanded on} \subsection{System scope} A table containing systems which the FGC project is seeking to replace or influence, as well as a description of the intended interaction between the FGC project and the system, are shown in Figure \ref{fig:system_scope}. \todo{More rows + header} \begin{figure} \centering \captionsetup{justification=centering} \begin{tabular}{c p{12cm}} Animal herding & The FGC system will be used replace humans and trained animals that currently manage and control farm animals. \\ Data collection & Among the goals for the FGC sytem is to collect data from the animals being herded, in order to help farmers make informed decisions. The FGC system can either serve as the first means of data collection, a replacement for an existing data collection mechanism, or as a complement to such a mechanism. \\ \end{tabular} \caption{Fenceless Grazing System Scope} \label{fig:system_scope} \end{figure} \subsection{System overview} \subsubsection{System context} At present, despite the continued industrialization in numerious other indestries, animal farming replies on human labor to manage and herd farm animals. This requires significant time and effort, which could be more effectively spent elsewhere. The GFC system intends to automate the various human involvement in animal farming. \subsubsection{System functions} Primarily, the FGC system serves as a tracking and management device. Through the use of GPS tracking and LoRa long-range communication tehcnology, a collar is to provide information regarding the present location of the farm animal equipped with said collar. Furthermore, the collar is to be able to discourage undesired behavior such as leaving a designated area from the animal through the use of loud and unpleasant sounds and electrical chock. The collar is also to collect data regarding the behavior of various animals, for use in making decision regarding the livestock or otherwise. Additionally, a component of the system is a piece of software that allows for the remote management of collars. Users should be able to adjust "allowed" locations for the animals through this software, observe the current locations of the animals, and read the data collected by the collars. \subsubsection{User characteristics} ?? \todo{Finish this} \subsection{Definitions} ?? \todo{Finish this} \section{References} \section{System requirements} \subsection{Functional requirements} \subsubsection{GPS} It is imperative that the FGC system precisely tracks the locations of animals that are equipped with a collar. As the name of the system suggests, the system may be deployed in replacement of fenced-off areas. As such, failure to correctly identify the location of an animal may lead to the animal moving outside the desired area. Since many farms border wooded areas, highways or roads, it is then possible that an animal whose location was not properly reported will wonder into traffic or another dangerous location. \subsubsection{Sound and Electrical Shock} \subsection{Usability requirements} \subsection{Performance requirements} \subsection{System interface} \subsection{System operations} \subsection{System modes and states} \subsection{Physical characteristics} \subsection{Environmental conditions} \subsection{System security} \subsection{Information management} \subsection{Policies and regulations} \subsection{System life cycle sustainment} \subsection{Packaging, handling, shipping and transportation} \section{Verification} \section{Gantt Chart} \begin{ganttchart}[ x unit=.55mm, time slot format=isodate ]{2019-10-01}{2020-06-30} \gantttitlecalendar{year, month=name} \\ \ganttgroup{Collar}{2019-10-01}{2020-03-01} \\ \ganttbar{Design}{2019-10-20}{2020-01-01} \\ \ganttmilestone{Purchase Parts}{2020-01-03} \\ \ganttbar{Assemble}{2020-01-05}{2020-02-01} \\ \ganttbar{Test}{2020-02-01}{2020-03-01} \\ \ganttgroup{Server}{2019-10-01}{2020-05-01} \\ \ganttbar{Design}{2019-10-20}{2020-01-01} \\ \ganttbar{Implement}{2020-01-01}{2020-04-01} \\ \ganttbar{Test}{2020-04-01}{2020-05-01} \\ \ganttgroup{Application}{2019-10-01}{2020-05-01} \\ \ganttbar{Design}{2019-10-20}{2020-01-01} \\ \ganttbar{Implement}{2020-01-01}{2020-04-01} \\ \ganttbar{Test}{2020-04-01}{2020-05-01} \\ \ganttgroup{Project}{2019-10-01}{2020-06-30} \\ \ganttbar{Finalize}{2020-05-01}{2020-06-15} \ganttlink{elem1}{elem2} \ganttlink{elem2}{elem3} \ganttlink{elem3}{elem4} \ganttlink{elem6}{elem7} \ganttlink{elem7}{elem8} \ganttlink{elem10}{elem11} \ganttlink{elem11}{elem12} \end{ganttchart} \end{document}