1. A client device comprising:
one or more modules implemented at least partially in hardware and configured to implement an emergency service, the emergency service configured to support operations comprising:
generating a user interface for display on a display device;
receiving one or more inputs usable to form an emergency contacts list that includes a plurality of emergency contacts; and
causing the emergency contacts list to be communicated to one or more other client devices for use in generating a message to be communicated automatically and without user intervention to the emergency contacts in the emergency contacts list responsive to a trigger.
2. A client device as recited in claim 1, wherein the emergency service is configured to manage a hub that is a private, shared space of members, the hub including shared member contacts, and wherein the emergency contacts are designated as a subset of the shared member contacts.
3. A client device as recited in claim 1, wherein the generating is performable responsive to user selection from a lock screen of the other client devices to initiate display of the emergency contacts list without unlocking the functions of the device
4. A client device as recited in claim 3, wherein the lock screen includes one or more of the emergency contacts displayed for user selection to initiate a phone call to a selected emergency contact.
5. A client device as recited in claim 1, wherein the emergency contacts are displayable as selectable controls in the emergency contacts list in the user interface and are configured for user selection to initiate a phone call to a selected emergency contact.
6. A client device as recited in claim 5, wherein each of the selectable controls are configured for the user selection to initiate the phone call to the selected emergency contact when functions of the device are locked.
7. A client device as recited in claim 1, wherein the emergency service is configured to generate the emergency contacts list from shared member contacts responsive to input of an emergency contacts selectable control.
8. A client device as recited in claim 1, wherein trigger is initiating a communication for help.
9. A client device as recited in claim 9, wherein the trigger is a phone call and the message is not a phone call.
10. A client device as recited in claim 1, wherein trigger is formed using a biomedical sensor.
11. A client device as recited in claim 1, wherein trigger is formed using a positional sensor.
12. A method, comprising:
displaying an emergency contacts selectable control in a user interface, the emergency contacts selectable control configured for user selection;
receiving an input of the emergency contacts selectable control to display an emergency contacts list; and
displaying the emergency contacts list that includes emergency contacts designated for members of a hub, the emergency contacts included in the emergency contacts list specified by another member of the hub.
13. A method as recited in claim 12, wherein the emergency contacts are designated as a subset of shared member contacts of the members of the hub.
14. A method as recited in claim 12, wherein the user interface is a phone lock screen, and wherein the emergency contacts selectable control is selectable from the phone lock screen to display the emergency contacts list without unlocking the phone.
15. A method as recited in claim 14, wherein the phone lock screen includes one or more of the emergency contacts displayed for user selection to initiate a phone call to a selected emergency contact.
16. A hub system, comprising:
a network service device to execute computer instructions as an emergency service that is configured to:
receive a request from a mobile device to generate an emergency contacts list that includes emergency contacts designated for members whose one or more mobile devices are associated in a hub;
generate the emergency contacts list from shared member contacts and based on the member who is associated with the mobile device; and
communicate the emergency contacts list to the mobile device to display the emergency contacts as selectable controls for user selection to initiate a phone call to a selected emergency contact.
17. A hub system as recited in claim 16, wherein the emergency service is configured to:
determine the one or more mobile devices of the members in the hub based on identifiers of the associated mobile devices; and
determine the emergency contacts from the shared member contacts based on the associated mobile devices.
18. A hub system as recited in claim 16, wherein the emergency service is configured to:
receive an indicator that functions of the mobile device are locked; and
generate the emergency contacts list to display the emergency contacts at the mobile device without the mobile device being unlocked.
19. A hub system as recited in claim 16, wherein the emergency contact list is configured to cause generation and communication of a message to each of the emergency contacts included in the list responsive to a trigger.
20. A hub system as recited in claim 18, wherein the trigger is a phone call made to 911.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A floating offshore wind power generation facility comprising a floating body, a mooring cable, a tower, and a windmill installed at the top of the tower, the windmill including a nacelle and a plurality of blades, wherein
the rotation axis of the windmill has a predetermined upward angle, and the windmill is a downwind windmill, in which the blades are attached to the leeward side of the nacelle and installed with the back surfaces of the blades facing windward, and
the mooring cable is attached to the floating body at a mooring point below the surface of the sea and higher than the center of gravity of the floating body.
2. The floating offshore wind power generation facility according to claim 1, wherein a lower portion of the floating body has a concrete floating body structure formed of concrete precast cylindrical bodies stacked on top of each other in plural stages in the direction of height and an upper portion of the floating body has a steel floating body structure formed of a steel member.
3. The floating offshore wind power generation facility according to claim 1, wherein a plurality of yaw-suppressing fins protruding from a circumferential surface of the floating body are provided on the lower portion of the floating body around the circumferential surface with spacing between adjacent yaw-suppressing fins.
4. The floating offshore wind power generation facility according to claim 1, further comprising ballasts having a weight that has been determined so that, when wind acts at an average wind velocity, the blades rotate in a rotational plane that is a substantially vertical plane.
5. The floating offshore wind power generation facility according to claim 2, wherein the concrete floating body structure is comprised of a plurality of individual concrete precast cylindrical bodies joined to each other as a stack to form an integral concrete precast cylindrical body, and an outer cable is circumferentially wound and fastened around an outer circumference of the integral concrete precast cylindrical body under tension.
6. The floating offshore wind power generation facility according to claim 5, further comprising a plurality of the outer cables wound and fastened around the outer circumference of the integral precast cylindrical body under tension, the outer cables being spaced one another in an axial direction of the integral concrete precast cylindrical body.
7. The floating offshore wind power generation facility according to claim 5, further comprising two anchorage devices for the outer cable at diametrically opposed locations on the integral concrete precast cylindrical body, each of the anchorage devices including a lifting fitting for lifting the integral concrete precast cylindrical body.
8. In a method of producing and installing a floating offshore wind power generating facility of claim 5, comprising producing the concrete floating body structure of the facility by stacking and joining the plurality of individual concrete precast cylindrical bodies to each other to form the integral concrete precast cylindrical body, removably winding and fastening the outer cable around the outer circumference of the integral concrete precast cylindrical body, and, after assembly the concrete floating body structure with other components to produce the facility and installing the facility, removing the outer cable from the integral concrete precast cylindrical body.