KR20040094243A - System for remote watching and controlling flower pot based on IPv6 - Google Patents

Abstract

PURPOSE: A method for managing flowerpots based on an IPv(Internet Protocol version)6 address is provided to monitor/control the flowerpots economically and efficiently in a remote place by installing a small embedded device based on the IPv6 to the flowerpots. CONSTITUTION: The flowerpots(10-30) are equipped with the embedded device based on the IPv6. A hub(40) transmits/receives data by connecting to the flowerpot and an IPv6 based router. A camera(70) pictures each flowerpot. An encoder(60) processes a moving image by connecting to each flowerpot. A streaming server(50) streams the moving image through the network by connecting to the encoder and receiving the data.

Description

System for remote watching and controlling flower pot based on IPv6}

The present invention relates to a pollen management system capable of remote monitoring and control based on IP6 address.

Potted plants and bonsai need to be managed at regular intervals, such as watering or sun exposure. Most of these management is usually performed by the human eye to determine the weather or the condition of the pollen. Of course, if a person can continue to work at a certain time there is no problem, but if you have to leave the house, such as long-term overseas business trips, management of pots or bonsai becomes very difficult.

In addition, in addition to these cases, companies that specialize in growing large quantities of pots and bonsai would be very useful if they had a more automated system. Rather than having to work by hand, a person may use remote methods such as grasping the condition of a plant in remote locations and, in some cases, judging the condition to provide the most appropriate criteria for the current situation and to water or sunshine. If you can, a large grower can save you money and eventually save money.

The present invention has been made in view of the above point, an object of the present invention to provide a system that can remotely monitor and control the pot. In particular, it is an object of the present invention to provide a system that can effectively and economically monitor and control the pollen from a remote location by mounting the IPv6-based ultra-small embedded device in the pot.

1 is a reference diagram for explaining the configuration of the present invention,

2 is a block diagram showing a configuration of the present invention;

3 is a block diagram showing a configuration of an embedded device;

4 is a flow chart illustrating a procedure made in accordance with the present invention.

The present invention for achieving the above object is a pollen equipped with an IPv6-based embedded device; A hub connected to the pollen and an IPv6-based router to transmit and receive data; A camera for photographing each pot; An encoder connected to each camera to process a video; Provided is a pollen management system capable of remote monitoring and control based on IPv6 address having a streaming server connected to the encoder to receive data and stream a video to a network.

In addition, the flower pot is characterized in that it further comprises a water supply device including a valve actuator for driving a pipe, a pump and a valve for supplying water connected to an external water source, and a humidity sensor for measuring humidity.

In addition, the IPv6-based embedded device of the plant is characterized in that the water supply by automatically driving the water supply pipe, pump and valve actuator according to a predetermined amount of water supply and the water supply frequency in advance.

In addition, the IPv6-based embedded device of the flowerpot is another feature that the user drives the water supply pipe, the pump and the valve actuator to supply water irrespective of the predetermined amount of water supply and the frequency of water supply.

In addition, the connection to the flowerpot is another feature that the user can access through ID / Password authentication, select at least one of monitoring, manual water supply, video viewing.

In addition, the embedded device of the potted plant is another feature that when the value of the humidity sensor reaches a preset threshold value, the potted plant sends a warning message to the user via email or SMS.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the present invention.

IPv6 addresses are a next-generation Internet protocol that has a 128-bit (2 ¹²⁸ ) address band and can assign IP addresses to most devices connected to the network. Conventional monitoring and control devices usually have an IP assigned to a server or a controller and connect the monitoring or control device to a non-IP communication structure such as a serial or parallel communication line.

However, the present invention is to directly mount a microembedded device to which the IPv6 is assigned to the flowerpot directly to the sensor to detect a variety of environmental conditions such as nutrients and humidity in the flowerpot and the actuator to control the water supply device directly. That's the way. Users can remotely monitor various status information delivered by these devices through web, mail and mobile phones, and also receive video information of flowers through network cameras. It is also possible to manage plants such as water supply and nutrient supply through the aforementioned remote access method.

1 is a reference diagram showing the configuration of an embodiment of the present invention.

As shown in Figure 1, the pot is connected to the switching hub through the sink board, each pot has a humidity sensor and a water supply. The switching hub is connected to a streaming server, which is connected to the camera through an encoder. The camera shoots each pot and delivers the image in real time.

2 is a block diagram showing in detail the configuration of the present invention as shown in FIG.

As shown in FIG. 2, the present invention includes a flower pot 10, 20, 30, a hub 40, a streaming server 50, an encoder 60, and a camera 70.

The hub 40 is connected to an IPv6 based router to transmit and receive data with an external network. Each hub 40 is connected to an embedded device (see sink board of FIG. 1) mounted in each pot.

The streaming server 50 transmits the video through the hub 40, and receives the video of the flowerpot photographed in real time through the camera 70 through the encoder 60 and streams the video.

Each of the pots 10, 20, 30 includes a water supply device 11 and a humidity sensor 12, respectively. The water supply device 11 is connected to an external water source and includes a pipe, a pump, and a valve actuator for water supply. The water supply device 11 operates an actuator and a pump according to a control command to supply an appropriate amount of water to the pot. Humidity sensor 12 measures the humidity of the pot.

Referring to the operation of the present invention in this configuration is as follows.

The present invention based on the IPv6 address is a system for cultivating flowers by polluting a flower pot in a flower bed connected to an IPv6 based network to an IPv6 user by accessing a web page and grasping the condition of the flower pot at a remote location.

The system as a whole has two main functions.

First, it is a function to automatically manage by applying the automatic water supply value for each flower pot function. In other words, the water supply and the frequency of watering according to the planted in the pot is set by the system automatically supplies water according to the value. At this time, the water supply system uses a small water supply pipe, a pump and a valve actuator connected to the system to supply water. It also provides the user with moisture information about the pot, allowing remote manual watering. The set parameters allow the user to modify them if desired.

The second major feature is pot management. This function allows you to watch the growth of plants and watering screens from a remote location. It is to provide viewing service in the form of IPv6 internet broadcasting using a fixed camera. Humidity and IPv6 addresses in pollen soil are displayed in real time on the web and LCD mounted on the pot.

The system according to the present invention having such a function proceeds through the following procedure.

First of all, for pollen planted in IPv6-based network, users access the system through their ID and password. The approaching user can do manual water supply or check the current status. A remote user will monitor the status of the pollen through the homepage. In its own system, the humidity in the pot is automatically measured and compared with the reference value periodically through the digital humidity sensor. The Humidity Sensing System module will be configured using a network distributed agent module for indoor temperature / humidity comparison. If the measured humidity is below the standard value, a warning mail will be sent to the user. Users who receive this warning mail can manually supply water through the homepage from a remote location. In addition, the automatic water supply system is always operated to match the characteristics of the flowers so that the water supply is set by a constant set value according to the quantity and frequency. In addition, even if you are not a user of IPv6-based network pollen, general users can simply monitor. This allows the visitor to check the view of flowers and system operation from a remote location through the visitor-only interface.

4 is a flow chart illustrating this procedure.

First, a user directly accesses a web page or a flower pot through ID / Password authentication (S100).

Next, the user may select monitoring (S300), manual water supply (S400), video viewing (S400). Here, monitoring refers to confirming various state data and parameter values of the pot, and manual water supply means supplying a desired amount of water to the pot by directly driving the water supply device 11 under the control of the user.

Video viewing refers to observing a video photographing the state of the pot and may be a manual watering during video viewing. In addition, video viewing may be made at the same time as the monitoring and manual water supply.

On the other hand, if it is set to automatic watering, when the threshold set in advance can reach the plant can alert the user to a mobile phone via email or SMS (S500).

In this case, the user who has received the warning message may access the flowerpot and execute a desired control command in the same manner as the above step S100.

Although the preferred embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and various modifications and changes can be made within the scope of the present invention.

According to the present invention, it is possible to provide a system that can effectively and economically monitor and control the pollen from a remote location by mounting the IPv6-based ultra-small embedded device in the pot.

Claims (6)

Pollen with IPv6-based embedded devices; A hub connected to the pollen and an IPv6-based router to transmit and receive data; A camera for photographing each pot; An encoder connected to each camera to process a video; A streaming server connected to the encoder to receive data and to stream a video to a network; Pollen management system capable of remote monitoring and control based on IPv6 address. The method of claim 1, The flower pot is connected to an external water source, and a pipe for supplying water, a pump and a water supply device including a valve actuator for driving a valve, and a humidity sensor for measuring humidity, characterized in that the IPv6 address-based remote monitoring and Controlled plant management system. The method of claim 1, IPv6 based embedded device of the potted plant, A plant management system capable of remote monitoring and control based on IPv6 address, characterized in that the water supply pipe, pump and valve actuators are automatically supplied according to a preset water supply amount and water supply frequency. The method of claim 1, IPv6-based embedded device of the pollen is a plant capable of remote monitoring and control based on the IPv6 address, characterized in that the user drives the water supply pipe, pump and valve actuators irrespective of the predetermined amount of water supply and the frequency of water supply in advance Management system. The method of claim 1, Access to the pot is a plant management system capable of remote monitoring and control based on IPv6 address, characterized in that the user can be connected through ID / Password authentication, monitoring, manual water supply, video viewing. The method of claim 1, The potted plant management system capable of remote monitoring and control based on IPv6 address, wherein the potted plant transmits a warning message to the user through e-mail or SMS when the value of the humidity sensor reaches a preset threshold. .