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\documentclass[10pt, draftclsnofoot,onecolumn]{IEEEtran}
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\usepackage{todonotes}
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\usepackage{caption}
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\linespread{1}
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\begin{document}
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\title{Fenceless Grazing Problem Statement}
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\author{Danila Fedorin \and Matthew Sessions \and Ryan Alder}
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\maketitle
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\tableofcontents
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\pagebreak
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% From: ISO/IEC/IEEE 29148:2011, page 44
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% 1. Introduction
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% 1.1 System purpose
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% 1.2 System scope
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% 1.3 System overview
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% 1.3.1 System context
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% 1.3.2 System functions
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% 1.3.3 User characteristics
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% 1.4 Definitions
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% 2. References
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% 3. System requirements
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% 3.1 Functional requirements
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% 3.2 Usability requirements
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% 3.3 Performance requirements
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% 3.4 System interface
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% 3.5 System operations
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% 3.6 System modes and states
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% 3.7 Physical characteristics
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% 3.8 Environmental conditions
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% 3.9 System security
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% 3.10 Information management
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% 3.11 Policies and regulations
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% 3.12 System life cycle sustainment
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% 3.13 Packaging, handling, shipping and transportation
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% 4. Verification (parallel to subsections in Section 3)
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\section{Introduction}
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\subsection{System purpose}
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The purpose of the Fenceless Grazing Collar (FGC) system is to reduce the
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need for human supervision in farming through the tracking and automated
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management of individual farm animals, controlled by humans through
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a remote digital system.
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\todo{This probably needs to be expanded on}
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\subsection{System scope}
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A table containing systems which the FGC project is seeking to replace
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or influence, as well as a description of the intended interaction
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between the FGC project and the system, are shown in Figure \ref{fig:system_scope}.
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\todo{More rows + header}
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\begin{figure}[h]
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\centering
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\captionsetup{justification=centering}
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\begin{tabular}{c p{12cm}}
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Animal herding & The FGC system will be used replace humans and trained animals that currently
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manage and control farm animals. \\
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Data collection & Among the goals for the FGC sytem is to collect data from the animals being herded,
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in order to help farmers make informed decisions. The FGC system can either serve as the first
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means of data collection, a replacement for an existing data collection mechanism, or as a
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complement to such a mechanism. \\
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\end{tabular}
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\caption{Fenceless Grazing System Scope}
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\label{fig:system_scope}
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\end{figure}
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\subsection{System overview}
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\subsubsection{System context}
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At present, despite the continued industrialization in numerious other indestries, animal
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farming replies on human labor to manage and herd farm animals. This requires significant
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time and effort, which could be more effectively spent elsewhere. The GFC system intends
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to automate the various human involvement in animal farming.
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\subsubsection{System functions}
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Primarily, the FGC system serves as a tracking and management device. Through
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the use of GPS tracking and LoRa long-range communication tehcnology, a collar
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is to provide information regarding the present location of the farm
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animal equipped with said collar. Furthermore, the collar is to be
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able to discourage undesired behavior such as leaving a designated area
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from the animal through the use of loud and unpleasant sounds and electrical chock.
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The collar is also to collect data regarding the behavior of various animals,
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for use in making decision regarding the livestock or otherwise.
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Additionally, a component of the system is a piece of software that allows
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for the remote management of collars. Users should be able to adjust "allowed"
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locations for the animals through this software, observe the current locations
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of the animals, and read the data collected by the collars.
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\subsubsection{User characteristics}
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?? \todo{Finish this}
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\subsection{Definitions}
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?? \todo{Finish this}
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\section{References}
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\section{System requirements}
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\subsection{Functional requirements}
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\subsubsection{GPS}
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It is imperative that the FGC system precisely tracks the locations of
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animals that are equipped with a collar. As the name of the system
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suggests, the system may be deployed in replacement of fenced-off
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areas. As such, failure to correctly identify the location
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of an animal may lead to the animal moving outside the desired area.
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Since many farms border wooded areas, highways or roads, it is then possible
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that an animal whose location was not properly reported will wonder
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into traffic or another dangerous location. We specify
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the maximum uncertainty in the location of an animal to be
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3 feet.
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In addition to being precise with the GPS coordinates, the system
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must be tolerant of the aforementioned uncertainty. The analysis
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of the reported location should prevent the possibility of a collar
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not producing a negative stimulus due to a fluctuation of measurement.
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\subsubsection{Sound and Electrical Shock}
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Simply being aware of the animal's location is insufficient
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to properly control its behavior without human intervention.
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As such, the collars must be able to create stimuli
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that farm animals find unpleasant, effectively training
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them to avoid performing actions that are undesirable. The sound
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and shock must not only be sufficient to infuence the animals,
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but also safe: they should not cause harm or excessive discomfort
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to the animal.
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\todo{investigate legal guidelines?}
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\subsubsection{Control Application}
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The project must contain a functional mobile application for
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the Android platform, capable of interfacing with the collars
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in the field. This application should, at minimum, be usable
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to adjust the boundaries of the prescribed region and visualize
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the locations of individual animals on a map.
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\subsubsection{Data Collection}
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@ryan you know more about this than I care to research. \todo{finish this}
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\subsubsection{Effective Area}
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Because many farms have significant numbers of livestock, and consequently
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a large grazing area, it's necessary that the FGC system is functional
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at large distances. We require that the sysem is functional at distances
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as large as 5 kilometers, which is half of the maximum range of the
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LoRa technology. A consequence of this requirement is also that the system
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is entirely wireless, since it is not feasible to provide cables or wires
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that span the maximum area of 5 kilometers.
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\subsection{Usability requirements}
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\subsubsection{Accessibility of Application}
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Because the FGC system is intended to be used by farmers as a replacement
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for manual labor, it must be accessible to farmers with knowledge
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of the domain, but not necessarily of the inner workings of the FGC implementation.
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Thus, the final Android application must be usable, without significant prior training,
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by non-technical people from the agricultural industry. On the other hand,
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if necessary, the Android application \emph{should} assume domain specific knowledge
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in the area of agriculture, since its intended audience is from this field.
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\subsubsection{Servicability of Collars}
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Because the collars are intended to be battery-based, they will need to be serviced,
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with the minimum goal of replacing or recharging the on-board batteries. This
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must be possible to people with no prior technical experience, as the presence
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of such experience is not guaranteed the expected client base. Other common
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servicing goals, such as cleaning the device, should also be easy to accomplish
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without an understanding of the architecture or implementation of the FGC system.
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\subsection{Performance requirements}
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\subsubsection{Battery Efficiency}
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Since the FGC device is battery powered and will require maintenance upon
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reaching low battery levels, it's important that the device is able to
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maintain an operational level of charge for long periods of time. That
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is, the number and duration of servicing actions should be low, in alignment
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with the original goal of reducing human labor. At minimum, the device
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should remain operational for 7 days (1 week).
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\subsubsection{Support for Multiple Collars}
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As mentioned above, the goal for hte FGC system is to support large herds of animals,
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which normally require significant portions of time to be dedicated by humans.
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In order to properly support large herds, it must be possible for the system
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to support as many as 100 concurrently active collars without issue. This
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requirement applies to the collars themselves and the Android application:
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\begin{itemize}
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\item The collars themselves should not experience difficulties when concentrated
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in large groups (farm animals instinctively tend towards proximity).
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\item The Android application, given hardware that is not greatly outdated,
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should be able to display and manage this number of collars without
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additional delays.
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\end{itemize}
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\subsection{System interface}
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\subsubsection{LoRa}
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@ryan \todo{write this}
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\subsection{System operations}
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\subsection{System modes and states}
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Besides the "standard" operational mode for the collar, it
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is useful to envision other modes that help in troubleshooting
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and setting up the FGC system. We define the following modes:
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\subsubsection{Standard}
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In this mode, the device uses the defined
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"out of bounds" area to determine whether or not to emit a negative
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stimulus. The produced negative stimuli are as defined in the
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sounds and electrical shock section of the functional requirements.
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\subsubsection{Electric Shock Test}
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In this mode, the device operates identically to the standard mode
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described above, with the exception of not generating electrical
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shocks. Instead, the device should emit a different sound (or
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a visual signal) to indicate when the shock would have been delivered.
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This allows for safe testing of the device's behavior around area boundaries.
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\subsection{Physical characteristics}
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\subsubsection{Weight}
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It's necessary for the device to be physically bearable by livestock for indefinite
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periods of time. If the resulting collar is a constant and noticable weight on the
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farm animal, it would serve as an unnecessary and permanent source of stress. Besides
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the ethical considerations of subjecting an animal to a constant level of stress through
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unnecessary physical labor (i.e. carrying a collar that is too heavy), this goes against
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the purpose of the project, since it will likely reduce the quality of the resulting animal
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management below the level that can be provided by humans.
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\subsubsection{Form Factor}
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In order to be able to effectively use the collar, it must fit comfortably on target farm
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animals. In our initial prototype, these animals will be cows, and thus, a requirement
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for the project is that the collar can be put onto, and stay on a farm cow.
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\subsection{Environmental conditions}
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\subsubsection{Water Resistance}
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The product will be tested in collaboration with Oregon State University's College of Animal
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Science, and therefore, will be tested in Oregon's climate. Since rain is very common
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during the winter months in Western Oregon, the device must be readily able to withstand
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such conditions, without sustaining any damage.
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\todo{Anything else?}
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\subsection{System security}
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\todo{Do we need this?}
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\subsection{Information management}
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\todo{Do we need this?}
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\subsection{Policies and regulations}
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\todo{Do we need this?}
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\subsection{System life cycle sustainment}
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\todo{Do we need this?}
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\subsection{Packaging, handling, shipping and transportation}
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\todo{Do we need this?}
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\section{Verification}
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\todo{Someone else please}
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\end{document}
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