Many families install a pet door fo

Many families install a pet door for their pets. Pet doors
are adapted to be fitted in the lower portion of a wall or
existing full-sized door. Pet doors allow family pets to
pass the door easily. Figure 2(a) shows the system diagram
of the pet door. The pet door system consists of one
control server, one smart pet door, several environment
nodes, and the tag on collars. The pet wears a sensing tag
on its collar, and the collar broadcasts the pet ID for
every 20 seconds continuously. Figure 1 shows the collar
design. The pet door detects the pet’s location and
periodically requests the pet activity list from the server.
Accordingly, when the device on the pet door receives
the broadcast packet from the pet tag, the device will
measure the estimated distance by the RSSI (Received
Signal Strength Indicator) value between them, the measuring
equation is listed as follows,lowing rules:
 The pet tag broadcasts the pet ID for every 20 seconds
continuously.
 An item identification can detect the animal seeking
passage through the pet door. Because the node of
WSN is the active tag, the sensing range is about
from 1 m to 2 m. The pet door will unlock when the
activity list is permitted.
 The pet owner can set the different passage permission
for the different pets. Thus the specific pet, for
example, the sick pet, can be forbidden to go outside.
The passage permission will store in the control
server.
 Aled light can indicate the pet owner where the pet is
located. In this case, the pet owner doesn’t need to
whistle the pet for making sure the location; the led
indicator can show the pet location. This indicator
costs less power, but can gain more conveniently.
 The environment nodes can report the weather to the
server for every 10 minutes, the pet owner can set the
weather rules to control the curfew. For example, if
it’s raining outdoors, the pets must come home but
get no permission to go outside.
 If there are more than one pets around the pet door,
the pet door will arrange the pet priority by their RSSI
values. Then check the activity list from the control
server by their sequence.
Figure 3 shows the interior design of the smart pet
door. The WSN module is installed on the upper right of
the pet door as the control and communication center,
which is responsible for receiving the pet id and driving
the control motors shown in Figure 3(a). Figures 3(b)
and (c) show the tow motors; the tow motors in Figure
3(b) is used to unlock the pet door, and the tow motor in
Figure 3(c) controls the swing direction of the flap. Figures
3(d) and (e) show the light motion sensors installed
on the top panel over the pet door. These sensors are
used to detect the flap swing direction, and the system
can use this data to trigger the LED at the top of the pet
door, which can indicate the pet location to the pet owner.
For example, a red LED indicates that the pet is indoors,
whereas a green LED indicates that the pet is outdoors.
We compared the proposed system with the general
product of Staywell [15], as shown in Table 1, to identify
the differences between these systems. Because the
Staywell product is based on magnetic tag sensing, the
cost and power supply is lower than those in our smart
pet door. However, according to previous discussions,
our system is designed based on the support of pet owner
demand. The power saving is another advantage of WSN.
Hence, our system exhibits dominance.