Fish tank hd cam monitor mac#
THIS IS THE iPad/iPhone VERSION OF THE POPULAR MAC APP "AQUARIUM LIVE HD" WHICH HAS SO FAR REACHED #1 IN THE ENTERTAINMENT CATEGORY IN 28 COUNTRIES INCLUDING USA, ITALY, FRANCE, GERMANY, JAPAN, THE UK, ETC. Once the parameters change, the user will get a notification via a short message service (SMS) and letting them know what the condition of the tank is.Turn your iPhone/iPad into a beautiful aquarium! Very relaxing to have running in the background while you work or rest.
In the approach used, the temperature, pH, and the water level of the fish tank are all automatically calculated. It will help the fishes to live a healthy life. The study used data collected from pH, temperature, and electronic sensors to enable the consumer to calculate amounts. Methods for measuring pH, temperature, are restricted to physically utilizing a test kit of chemicals. In this modern life, the maintenance of a fish tank is quite complex or difficult. These changes might stress the fish causing death of the fish. When there is a water change, its parameters affecting might change like the pH or the temperature. This project aims to create a prototype which will calculate as well as maintains the temperatures, pH and the water level automatically. Therefore, the fish keepers or aquarists can be relaxed as this is a system where it keeps an eye on the fish tank or aquarium.
With the ongoing day-to-day activities, it is difficult for people to give them attention all the time. The environment for them to live in should be made easier. The water quality also might have subtle changes. As there will be a change in the water, the fish's lifestyle might be under stress. Moving to a different home can be a shock for all creatures but for the fish it’s stressful. Participants classified the HMD system as an "inside-out" display (looking outwards from inside the volume), and the fish tank and haptic systems as "outside-in" dis- View full-text Although the fish tank group was itself signif-icantly faster than the haptic group, there were no statistical differ-ences in accuracy between the two. Results showed that the fish tank and haptic groups were significantly more accurate at judging the shape, density, and connectivity of objects and completed the tasks significantly faster than the HMD group. Response time and accuracy were used to measure performance. Fish tank and haptic participants saw the entire volume on-screen and rotated it to view it from different perspectives. HMD participants were placed "inside" the volume and walked within it to explore its structure. We compared user performance in three different stereo VR systems: (1) head-mounted display (HMD) (2) fish tank VR (fish tank) and (3) fish tank VR augmented with a haptic device (haptic). These tasks are derived from questions being asked by collaborators studying Cystic Fibrosis (CF). identifi-cation and judgment of the size, shape, density, and connectivity of objects present in a volume. Using the results of an empirical study, we developed such guidelines for the choice of display environment for four specific, but common, volume visualization problems. Preliminary results will be discussed in this paper.Īlthough a wide range of virtual reality (VR) systems are in use, there are few guidelines to help system and application develop-ers select the components most appropriate for the domain problem they are investigating.
Fish tank hd cam monitor software#
This paper proposes hardware design of the smart feeder and smart software algorithm. Fish welfare is expected to be enhanced since there is no food competition and food waste is expected to be less making water good quality last for longer. The proposed system is expected to cause uniform fish growth among individuals within the tank as the feeding depends on fish requests.
The smart fish feeding aims to minimize food waste and maximize the food conversion ratio (FCR). The proposed smart fish feeder feeds fish based on their request regardless the time of the day. The proposed feeding mechanism interacts, recognizes and responses to fish activities.
Adaptive smart fish feeder based on fish behaviours is proposed in this paper in order to minimize the effect of the traditional feeding mechanisms. Traditional fish feeding mechanism in today's aquaculture farms stands behind a variety of challenges, including fish welfare, fish growth distribution, environmental effect especially in open ocean cage fish farms, and production cost efficiency. Aquaculture is a growing multi-billion pound industry facing many challenges.