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

Open file information

File override information

Commitment control status

Communications status information

In addition, the Work with Job Menu allows you to select options to change, hold, release, or end the job. The Work with Reader (WRKRDR) or Work with Writer (WRKWTR) command is issued if this option is selected for a spooling reader or spooling writer job.

6 = Release: Use this option to run the Release Job (RLSJOB) command which releases the job if it is in the held condition. The Release Reader (RLSRDR) or Release Writer (RLSWTR) command (with OPTION(*CURRENT)) is run if this option is selected for a spooling reader or spooling writer job. This option is not valid for system or subsystem monitor jobs. RLS replaces the status field if the command was run successfully.

7 = Display message: Use this option to display the message for which the job is waiting.

8 = Work with spooled files: Use this option to display the job’s spooled output files.

9 = Exclude: Use this option to exclude the job from the display. The option has no effect on the job; it only affects the display.

10 = Display program stack: Use this option to display the job’s program stack

11 = Work with locks: Use this option to work with the job’s locks

13 = Disconnect: Use this option to run the Disconnect Job (DSCJOB) command. All jobs at the device will be disconnected.

SUBSYSTEM/JOB: This shows the name of the job as identified to the system. Jobs that run in a subsystem (autostart jobs, interactive jobs, batch jobs, reader, and writers) are indented two positions under the subsystem monitor job they are associated with. The indentation shows the jobs that are contained in a subsystem. Subsystem monitors and system jobs are not indented. If the job type is multiple requester terminal (MRT), the job name is the MRT procedure name.

A plus (+) sign next to the first character of the job name indicates that the job is an active job of a group. Suspended group jobs (GRP shows as the prefix in the Function column) are excluded from the display unless the F14 key is pressed. Pressing the F14 key again will cause the suspended group jobs to be excluded once again. When suspended group jobs are shown, the plus sign is not displayed.

USER: The user name identifies the user who submits the job and the user profile under which the job is run. If the job type is multiple requester terminal (MRT), the user name is the user that initially started the MRT job. The user name is the same as the user profile name and can come from several different sources, depending on the type of job:

Batch job: The user name is specified on the Submit Job (SMBJOB) command, or it is specified in the job description referred to by the JOB or SBMJOB commands.

Interactive job: The user name is typed in at sign-on, or the user name is provided from the default in the job description referred to by the work station’s job entry.

Autostart job: The user name is specified in the job description referred to by the job entry for the autostart job

TYPE: This shows the type of active job. Possible values are:

ASJ: Autostart

BCH: Batch

BCI: Batch immediate

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Nikon installation instructions UPS/400 . . . an IBM AS/400 UPS power monitoring system

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.