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IETF RFC 4791 - CALENDARING EXTENSIONS TO WEBDAV (CALDAV) Organization: IETF
Date: 2007-03-01
Description: This document defines extensions to the Web Distributed Authoring and Versioning (WebDAV) protocol to specify a standard way of accessing, managing, and sharing calendaring and scheduling information based on the iCalendar format. This document defines the "calendar-access" feature of CalDAV.
IETF RFC 2739 - CALENDAR ATTRIBUTES FOR VCARD AND LDAP Organization: IETF
Date: 2000-01-01
Description: When scheduling a calendar entity, such as an event, it is a prerequisite that an organizer has the calendar address of each attendee that will be invited to the event.
IETF RFC 5545 - INTERNET CALENDARING AND SCHEDULING CORE OBJECT SPECIFICATION (ICALENDAR) Organization: IETF
Date: 2009-09-01
Description: This document defines the iCalendar data format for representing and exchanging calendaring and scheduling information such as events, to-dos, journal entries, and free/busy information, independent of any particular calendar service or protocol.
IETF RFC 7265 - JCAL: THE JSON FORMAT FOR ICALENDAR Organization: IETF
Date: 2014-05-01
Description: This specification defines "jCal", a JSON format for iCalendar data. The iCalendar data format is a text format for capturing and exchanging information normally stored within a calendaring and scheduling application, for example, tasks and events.
ISO 8601 - DATA ELEMENTS AND INTERCHANGE FORMATS - INFORMATION INTERCHANGE - REPRESENTATION OF DATES AND TIMES - THIRD EDITION Organization: ISO
Date: 2004-12-01
Description: It includes— calendar dates expressed in terms of calendar year, calendar month and calendar day of the month;— ordinal dates expressed in terms of calendar year and calendar day of the year;— week dates expressed in terms of calendar year, calendar week number and calendar day of the week;— local time based upon the 24-hour timekeeping system;— Coordinated Universal Time of day;— local time and the difference from Coordinated Universal Time;— combination of date and time of day;— time intervals;— recurring time intervals.
ISO DIS 8601-1 - DATA ELEMENTS AND INTERCHANGE FORMATS - INFORMATION INTERCHANGE - REPRESENTATION OF DATES AND TIMES - PART 1: BASIC RULES Organization: ISO
Date: 2016-12-30
Description: It includes — calendar dates expressed in terms of calendar year, calendar month and calendar day of the month; — ordinal dates expressed in terms of calendar year and calendar day of the year; — week dates expressed in terms of calendar year, calendar week number and calendar day of the week; — local time based upon the 24-hour timekeeping system; — Coordinated Universal Time of day; — local time and the difference from Coordinated Universal Time; — combination of date and time of day; — time intervals; — recurring time intervals.
TSE - TS ISO 8601 - DATA ELEMENTS AND INTERCHANGE FORMATS - INFORMATION INTERCHANGE - REPRESENTATION OF DATES AND TIMES Organization: TSE
Date: 2010-01-26
Description: ISO 8601:2004 is applicable whenever representation of dates inthe Gregorian calendar, times in the 24-hour timekeeping system,time intervals and recurring time intervals or of the formats ofthese representations are included in information interchange
DS/ISO 8601 - DATA ELEMENTS AND INTERCHANGE FORMATS - INFORMATION INTERCHANGE - REPRESENTATION OF DATES AND TIMES Organization: DS
Date: 2005-09-12
Description: It includes____________calendar dates expressed in terms of calendar year, calendar month and calendar day of the month;_________ordinal dates expressed in terms of calendar year and calendar day of the year;_________week dates expressed in terms of calendar year, calendar week number and calendar day of the week;_________local time based upon the 24-hour timekeeping system;_________Coordinated Universal Time of day;_________local time and the difference from Coordinated Universal Time;_________combination of date and time of day;_________time intervals;_________recurring time intervals.
IETF RFC 4480 - RPID: RICH PRESENCE EXTENSIONS TO THE PRESENCE INFORMATION DATA FORMAT (PIDF) Organization: IETF
Date: 2006-07-01
Description: The information is designed so that much of it can be derived automatically, e.g., from calendar files or user activity. This extension includes information about what the person is doing, a grouping identifier for a tuple, when a service or device was last used, the type of place a person is in, what media communications might remain private, the relationship of a service tuple to another presentity, the person's mood, the time zone it is located in, the type of service it offers, an icon reflecting the presentity's status, and the overall role of the presentity.
BSI - BS EN 28601 - DATA ELEMENTS AND INTERCHANGE FORMATS - INFORMATION INTERCHANGE - REPRESENTATION OF DATES AND TIMES - CORR 6816: SEPTEMBER 1991; AMD 7825: JUNE 1993 Organization: BSI
Date: 1989-06-30
Description: Expression of dates, including calendar dates, ordinal dates, week numbers and times in numeric form including a combination of alphabetic and graphic characters to avoid ambiguity.
DS/EN 28601 - DATA ELEMENTS AND INTERCHANGE FORMATS - INFORMATION INTERCHANGE - REPRESENTATION OF DATES AND TIMES Organization: DS
Date: 1993-08-31
Description: The standard specifies the representation of dates in the Gregorian calendar and times and representations of periods of time.
ISO DIS 8601-2 - DATA ELEMENTS AND INTERCHANGE FORMATS - INFORMATION INTERCHANGE - REPRESENTATION OF DATES AND TIMES - PART 2: EXTENSIONS Organization: ISO
Date: 2016-12-30
Description: International Standard 8601 is applicable whenever representation of dates in the Gregorian calendar, times in the 24-hour timekeeping system, time intervals, or recurring time intervals are included in information interchange.
CSA - CAN/CSA-Z234.5-89 - DATA ELEMENTS AND INTERCHANGE FORMATS - INFORMATION INTERCHANGE - REPRESENTATION OF DATES AND TIMES - ISO 8601: 1988 Organization: CSA
Date: 1989-12-01
Description: Scope and field of application This International Standard specifies the representation of dates in the Gregorian calendar and times and representations of periods of time. It includes a) Calendar dates expressed in terms of year, month and day of month; b) Ordinal dates expressed in terms of year and day of year; c) Dates identified by means of year, week numbers and day numbers; d )Time of the day based upon the 24-hour timekeeping system; e )Differences between local time and Coordinated univer-sal time (UTC); f) Combination of date and time; g) Periods of time, with or without either a start or end date or both.
IETF RFC 3339 - DATE AND TIME ON THE INTERNET: TIMESTAMPS Organization: IETF
Date: 2002-07-01
Description: This document defines a date and time format for use in Internet protocols that is a profile of the ISO 8601 standard for representation of dates and times using the Gregorian calendar.
ANSI INCITS 30 - INFORMATION TECHNOLOGY - REPRESENTATION OF DATE FOR INFORMATION INTERCHANGE Organization: ANSI
Date: 1997-01-01
Description: In ISO 8601: 1988, the representation specified by this American National Standard is referred to as calendar date-complete representation-basic format, except that the notation YYYY is used instead of CCYY.
API PUBL 4075 - REPORT ON AIR AND WATER CONSERVATION EXPENDITURES OF THE PETROLEUM INDUSTRY IN THE UNITED STATES 1966 - 1970 Organization: API
Date: 1971-02-01
Description: Completed questionnaires were received from the corporate offices of 45 companies, representing 98.3 per cent of the industry's crude oil charge per calendar day (10.7 million barrels). The reported daily industry average was 10.9 million barrels.
ASHRAE ST-16-014 - DATA AND INTERFACES FOR ADVANCED BUILDING OPERATIONS AND MAINTENANCE Organization: ASHRAE
Date: 2016-01-01
Description: Metrics may be visualized on maps, system graphics, and in floor plans; as time-series line charts; in calendar plots, bar charts, and pie charts; and relative to expected performance, past performance, orarelevantbenchmark.Wewillpresentfeedbackfrom operationsandmaintenancepersonnelandourresearch about the types of metrics, at each scale, in which visualization format is most useful for advanced operations and maintenance.
CEN - EN 14534 - POSTAL SERVICES - QUALITY OF SERVICE - MEASUREMENT OF THE TRANSIT TIME OF END-TO-END SERVICES FOR BULK MAIL Organization: CEN
Date: 2016-05-01
Description: The transit-time quality-of-service result will be expressed as percentage of mail delivered by, on or between expected dates. These dates can be defined absolute as calendar-days or relative to the date of induction. The transit time calculation rule will be in whole days.
EEMUA PUB NO 206 - RISK BASED INSPECTION A GUIDE TO EFFECTIVE USE OF THE RBI PROCESS Organization: EEMUA
Date: 2006-01-01
Description: The inspection intervals derived from the RBI procedure may be longer or shorter than the calendar-based inspection interval previously prescribed by legislation.
ISO/IEC 9945-2 - INFORMATION TECHNOLOGY - PORTABLE OPERATING SYSTEM INTERFACE (POSIX®) - PART 2: SYSTEM INTERFACES TECHNICAL CORRIGENDUM 1 - THIRD EDITION Organization: ISO
Date: 2004-09-15
Description: From XSH5, the following legacy interfaces, headers, and external variables are not carried forward: advance( ), brk( ), chroot( ), compile( ), cuserid( ), gamma( ), getdtablesize( ), getpagesize( ), getpass( ), getw( ), putw( ), re_comp( ), re_exec( ), regcmp( ), regex( ), sbrk( ), sigstack( ), step( ), ttyslot( ), valloc( ), wait3( ), <re_comp.h>, <regexp.h>, <varargs.h>, loc1, ___loc1, loc2, locs From XCU5, the following legacy utilities are not carried forward:calendar, cancel, cc, col, cpio, cu, dircmp, dis, egrep, fgrep, line, lint, lpstat, mail, pack, pcat, pg, spell, sum, tar, unpack, uulog, uuname, uupick, uuto In addition, legacy features within non-legacy reference pages (for example, headers) are not carried forward.

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