team member:
Dan Haoxiang: 1713071042 contribution ratio of $ w_1 = 0.2 $
Wang Chenrui: 1713071043 contribution ratio of $ w_1 = 0.2 $
Kong Supeng: 1713071044 contribution ratio of $ w_1 = 0.2 $
Support treasure: 1713071045 contribution ratio of $ w_1 = 0.2 $
Li Jiaxin: 1713071046 contribution ratio of $ w_1 = 0.2 $
First, list the elevator speech template, introduce your team project.
Fellow teachers / users / students:
Our products are unmanned boat control system to provide a more convenient way to monitor the water quality unmanned boat water quality monitoring staff. Exists for the implementation of water quality monitoring tasks in fixed buoy stations a single point of monitoring limitations, observers onboard sampling time-consuming issues such as the intelligent unmanned vessel water quality monitoring system by implementing a multi-point goals waters, layered continuous water quality data measurement and sampling to solve the limitations of the original staff operations. Able to meet the basic needs of the smart department for water quality monitoring.
two. System functional requirements
- User Module
1.1 User Registration (Users can register an account in the registration interface)
1.1.1 The new company registered
To have products newly registered users
1.1.2 Purchased Product Registration
Product has registered users
1.2 user logs on (after the user enters the password registered account at the login screen, verify that the landing)
1.2.1 WAN Log
1.2.2 LAN Log
1.3 User information modification
1.3.1 Change Password
1.3.2 New ship bind
Add a new boat purchase
1.3.3 Binding maintenance
Binding have switched boats
1.4 Log (back to the user login screen)
- Hull control module
2.1 video display (with onboard cameras to monitor real-time binding)
2.2 Data Display (real-time access hull latitude and longitude coordinates, speed and heading navigation)
2.3 steering control ( 360 degree control movement direction of the hull)
2.4 speed switching (initial value 50% speed, adjustable)
2.5 Stop navigation (to stop rotating propeller)
2.6 navigation (navigation route according to the coordinates of the point)
- Task creation module
3.1 Create a task without path
3.2 Creating an existing path tasks
3.3 Creating a new task path
3.4 Creating return mission
3.5 Satellite Map
- Data display module
4.1 Historical chart data task
4.2 historical task data line chart
three. The main use case of FIG.
1. User Module
2. Hull control module
3. Create a task module
4. Data Display module
four. WBS
Fives. Task allocation table
Surname name school number assignments
1. Dan Haoxiang 1713071042 Finish "listed in the elevator speech template, introduce the project team."
2. Wang Chenrui 1,713,071,043 complete "list system functional requirements"
3. Kong Supeng 1713071044 completion "of the system shown in FIG embodiment primarily"
4. Support treasure 1713071045 complete "system development is divided into several tasks, draw WBS "
5. Li Jiaxin 1713071046 Finish "assign tasks listed in the problem statement and allocation table and the final integration"
six. Question contradiction
There had been differences within the group on project content, but in the end due to multiple discussions in the group, many rational analysis, both parties agree that the final decision method using unmanned ship to detect water quality.