UPS/400 . . . an IBM AS/400 UPS power monitoring system

UPS/400 . . . an IBM AS/400 UPS power monitoring system . . .

•EVK: Started by a procedure start request

•INT: Interactive

•MRT: Multiple request terminal

•PJ: Prestart job

•PDJ: Print driver job

•RDR: Reader

•SBS: Subsystem monitor

•SYS: System

•WTR: Writer

ELAPSED CPU%: The percent of processing unit time attributes to this job over the elapsed time compared to the measurement time interval.

FUNCTION: The high-level function being performed by the job. This field is blank when a logged function has not been performed. The prefix of this field indicates what the characters that follow the hyphen represent:

•CMD: The command is run interactively, or in a batch input stream, or requested from a system menu. Commands in the CL programs are not logged.

•DLY: This job is processing a DLYJOB (Delay Job) command. The time displayed is the number of seconds that job is delayed (up to 999999 seconds), or the time when the job is to resume processing (hh:mm:ss), depending on how the command was specified.

•GRP: The group name of a suspended group job is displayed.

•I/O: The job is a subsystem monitor that is performing input/output operations (I/O) to a workstation for the sign-on display file. The name displayed is the name of the work station device.

•MNU: The name of the menu

•MRT: This is a multiple requester terminal (MRT) job if the type is MRT, or an interactive job attached to a MRT job is the type is INT. If it is an MRT job, the characters that follow the dash is a number, a slash (/), and another number. The first number indicates how may requesters are currently attached to the MRT job, and the second number indicates the maximum number (MRTMAX) of requesters. NEP indicates the MRT is a “Never-ending-program” (the MRT stays active even if there are no requester of the MRT). If it is an interactive job attached to a MRT, the MRT procedure name follows the dash.

•PGM: The program name is the high-level program called interactively, or a program called in a batch input stream, or the initial program specified in the user profile, or the name of a system request processor. If the high-level program transfers control, the program name remains in the function field even though it is no longer in the program stack.

•PRC: This is the name of the procedure.

•IDX: The value is the name of the file associated with an index (access path) rebuild operation. The previously logged value replaces this value when the index rebuild operation has finished.

•LOG-QHST: History information is being logged to a database file.

•* - JOBLOG: A job log is being produced

•* - DUMP: A dump is in process.

•* - ADDLACTJOB: Auxiliary storage is being allocated for the number of active jobs

•* - PASSTHRU: The job is a pass-through job.

•* - RCLSPLSTG: Empty spooled database members are being deleted specified in the QADLACTJ system value. This may indicate that the system value for the initial number of active jobs was set too low.

•* - ADLTOTJOB: Auxiliary storage is being allocated for the number of jobs specified in the QADTOTJ system value

•*-CMDENT: The command entry display is being used

•* - DLTSPLF: A spooled file is being deleted.

STATUS: The status of the job. Only one status is displayed per job. A blank status field represents a job that is in transition. The possible values are:

UPS specifications

Nikon has long been recognized as a leader in the optical and imaging industries, and their line of Unmanned Aerial Systems (UAS), or Unmanned Aerial Platforms (UPS), reflects this legacy of innovation. Nikon's UPS technology is designed to meet the demands of aerial imaging, surveying, and mapping while integrating advanced imaging technologies that the brand is famous for.

One of the standout features of Nikon’s UPS is its high-resolution imaging capabilities. These drones are equipped with sophisticated cameras that can capture stunning aerial photographs and high-definition video. The incorporation of Nikon’s lens technology provides crystal-clear images, which are essential for professional applications in fields such as agriculture, construction, and environmental monitoring.

Another notable characteristic of Nikon's UPS is its user-friendly interface and seamless control systems. Whether piloted manually or autonomously, operators can easily navigate these drones using intuitive software that simplifies mission planning and execution. This makes Nikon’s UPS not only suitable for seasoned professionals but also accessible for newcomers to drone technology.

In terms of flight performance, Nikon's UPS boasts impressive stability and endurance. Equipped with robust motors and advanced flight control systems, these drones can tackle varying weather conditions and carry significant payloads. Furthermore, the flight-time capabilities allow for extended operations, enabling users to cover large areas without frequent recharges or battery swaps.

Nikon integrates cutting-edge technologies such as Real-Time Kinematic (RTK) and Global Navigation Satellite System (GNSS) into their UPS, ensuring precise positioning and enhanced mapping accuracy. These technologies are crucial for applications that require detailed geographical information and data collection, thereby allowing users to produce high-quality outputs with minimal errors.

Safety features are also integral to Nikon’s UPS design. The drones come equipped with automatic return-to-home functions, GPS stabilization, and obstacle avoidance systems, which significantly reduce the risk of accidents during operation.

In conclusion, Nikon's Unmanned Aerial Platforms are a testament to the company’s commitment to excellence in imaging and technology. With their high-resolution cameras, excellent flight performance, user-friendly controls, and advanced technological integration, Nikon's UPS offers a comprehensive solution for professionals in various industries, making aerial imaging more efficient and accessible than ever before.