[Jan-2024] Oracle 1z0-1091-22 Exam Practice Test Questions - TestsDumps [Q23-Q44]

[Jan-2024] Oracle 1z0-1091-22 Exam Practice Test Questions - TestsDumps

Updated Certification Exam 1z0-1091-22 Dumps - Practice Test Questions

Oracle 1z0-1091-22 Exam Syllabus Topics:

Topic	Details
Topic 1	Design and set up the admin data required to effectively configure a usage subscription Service Points, Devices and Measuring Components
Topic 2	Describe Service Order Management and Service Investigative Orders Configure Device Events to support filtering of momentary outage events
Topic 3	Smart Grid Gateway (SGG) SaaS Overview, Adapters and Integrations Explain the cloud service payload processing configuration
Topic 4	Explain the key concepts of Time-of-Use (TOU) and how it applies to final measurements Explain the main components of Dynamic Aggregations
Topic 5	Configure base package usage calculation rules Map Interval Measurements To Time-of-Use Periods Smart Grid Gateway (SGG) SaaS Payload Processing
Topic 6	Generate TOU map data and check for correctness Describe Measurement Reprocessing functionality and Substractive Interval Data
Topic 7	Configure the Smart Grid Gateway (SGG) SaaS Architecture Configure specifications and their relationship to assets

 

NEW QUESTION # 23
Time-of-use (TOU) maps can be used by various functions in Meter Data Management (MDM). Which of the following is a typical scenario in which TOU maps are applied?

• A. To initial measurement data (IMD) records for creating summarized TOU final measurements.
• B. To determine the time a user worked an an incorrect measurement.
• C. To map usage data with geospatial applications.
• D. To usage transactions and final measurements for billing and analytical purposes.

Answer: D

Explanation:
Explanation
Time-of-use (TOU) maps can be used by various functions in Meter Data Management (MDM). A TOU map is a configuration that defines how interval measurements are converted into scalar measurements based on different TOU periods. A typical scenario in which TOU maps are applied is to usage transactions and final measurements for billing and analytical purposes. A usage transaction is a record that stores the bill determinants and other usage information for a usage subscription. A final measurement is a record that stores the measurement data that has been validated, edited, and estimated. TOU maps can be applied to usage transactions and final measurements to calculate bill determinants or perform analysis based on different TOU periods.
TOU maps are not applied to initial measurement data (IMD) records for creating summarized TOU final measurements. IMD records are records that store the raw measurement data that is received from smart meter systems or other sources. IMD records are not converted into final measurements by using TOU maps, but by using VEE rules.
TOU maps are not used to determine the time a user worked on an incorrect measurement, which is a function that is performed by using audit trails or logs. TOU maps are not used to map usage data with geospatial applications, which is a function that is performed by using location data or coordinates.

NEW QUESTION # 24
A business needs a new Service Order process that includes meter commands. Which THREE options should you configure to build this process?

• A. Activity type
• B. Measuring component type
• C. Communication type Message sender
• D. Device configuration type

Answer: A,B,C

Explanation:
Explanation
To build a new Service Order process that includes meter commands, you need to configure the following options:
* Measuring component type: This defines the type of measurement that a device can record, such as scalar, interval, or event. You can associate meter commands with measuring component types to perform actions on devices that have those types1.
* Activity type: This defines the type of work that needs to be performed on a service point or device, such as installation, removal, or inspection. You can associate meter commands with activity types to trigger actions on devices when an activity is completed1.
* Communication type Message sender: This defines the communication channel and protocol that is used to send meter commands to devices. You can configure message senders for different communication types, such as AMI, AMR, or manual1.
You do not need to configure device configuration type, which defines the physical characteristics and attributes of a device, such as manufacturer, model, or serial number1. Device configuration type does not affect meter commands.

NEW QUESTION # 25
Service Order Management is used to orchestrate service order processes such as Enable Service and Disable Service.
Which Oracle Utilities Application Framework (OUAF) admin data should be created for a custom Service Order Management process?

• A. Device type
• B. Activity type
• C. Consumer contract type
• D. Device event type

Answer: B

Explanation:
Explanation
An activity type is an Oracle Utilities Application Framework (OUAF) admin data that should be created for a custom Service Order Management process. An activity type defines the type of work that needs to be performed on a service point or device, such as enable service or disable service. An activity type also defines the following attributes:
* The status and priority of the activity
* The business object and algorithm that are used to process the activity
* The fields and validations that are required for the activity
* The notifications and escalations that are triggered by the activity
* The dependencies and relationships that exist between different activities An activity type is used to create and manage service orders, which are records that store the details and outcomes of the work performed on a service point or device.

NEW QUESTION # 26
Which TWO Validation, Estimation, and Editing (VEE) rules are typically configured on a project for consumption synchronization processes?

• A. Sum check: Ensure the two measuring components are in sync.
• B. Interval adjustment from scalar: Adjust the interval curve to the register consumption.
• C. Low check: Check for invalid low usage.
• D. Unit of Measure (UOM) check: Ensure UOMs are correct.

Answer: A,B

Explanation:
Explanation
Consumption synchronization is a process that ensures that the usage data from different measuring components (such as interval and scalar) are consistent and aligned. Consumption synchronization can be performed using various methods, such as adjustment, estimation, or derivation. According to the Oracle Utilities Meter Data Management Business User Guide, two types of VEE rules that are typically configured on a project for consumption synchronization processes are:
* Interval adjustment from scalar: This is a rule that adjusts the interval curve to match the register consumption. Interval adjustment from scalar can be used to correct any discrepancies between interval and scalar usage data due to factors such as clock drift or multiplier errors.
* Sum check: This is a rule that ensures that the usage data from two measuring components are in sync.
Sum check can be used to compare the usage data from different measuring components (such as import and export) and flag any differences or errors.
References: Oracle Utilities Meter Data Management Business User Guide, Chapter 8: Usage, Section 8.3:
Validation, Estimation, and Editing; Section 8.5: Consumption Synchronization

NEW QUESTION # 27
Your client requests you to design and set up data necessary to support an electric meter that is installed at a customer's service point with solar panels:
* Channel 1: Measures the kWh that was consumed from the grid. This is an interval channel that measures in
60-minute intervals.
* Channel 2: Measures the kWh that was generated. This is an interval channel that measures in 60-minute intervals.
Using the Math usage rule, you must create usage transactions that take the difference between the consumed and generated channels, store and name the difference value, and store the derived curve.
Which THREE statements are true?

• A. Net consumption SQI is required.
• B. Net consumption SQI is not required because the result is stored in the database.
• C. The two channels need distinct service quantity identifiers (SQIs) to differentiate between the generated and consumed kWh.
• D. A separate generated service point is required
• E. You must set "Save Derived Vector" to Yes in the Math usage rule.

Answer: A,C,E

Explanation:
Explanation
The client requests to design and set up data necessary to support an electric meter that is installed at a customer's service point with solar panels. The meter has two channels that measure the kWh that was consumed from the grid and the kWh that was generated. Using the Math usage rule, usage transactions that take the difference between the consumed and generated channels must be created and stored. According to the Oracle Utilities Meter Data Management Business User Guide, some statements that are true about this scenario are:
* The two channels need distinct service quantity identifiers (SQIs) to differentiate between the generated and consumed kWh. SQIs are codes that identify different types of usage data, such as kWh, kVARh, or kW. SQIs can be used to specify which usage data should be used for calculation or validation purposes.
* Net consumption SQI is required. This is a code that identifies the usage data that represents the difference between the consumed and generated kWh. Net consumption SQI can be used to store and name the difference value and export it to other systems.
* You must set "Save Derived Vector" to Yes in the Math usage rule. This is a parameter that indicates whether the derived curve that results from the Math usage rule should be saved or not. Setting this parameter to Yes can be used to store the derived curve that represents the net consumption.
References: Oracle Utilities Meter Data Management Business User Guide, Chapter 3: Asset Management, Section 3.5: Measuring Components; Chapter 8: Usage, Section 8.4: Usage Calculations

NEW QUESTION # 28
Which THREE features should you set up in the Cloud Service Payload Processing configuration?

• A. Object Storage locations
• B. File system directory SFTP setup
• C. Head-end systems (HES)
• D. Key rings and key pairs

Answer: A,B,D

Explanation:
Explanation
To set up the Cloud Service Payload Processing configuration, you should perform the following steps:
* File system directory SFTP setup: This is used to configure the secure file transfer protocol (SFTP) settings for transferring files between Oracle Utilities Smart Grid Gateway and Oracle Utilities Meter Data Management. You need to specify the SFTP host name, port number, user name, password, and directory path for inbound and outbound files.
* Key rings and key pairs: This is used to configure the encryption and decryption settings for payload files. You need to create key rings and key pairs for each communication type and associate them with message senders and receivers.
* Object Storage locations: This is used to configure the object storage settings for storing payload files in Oracle Cloud Infrastructure. You need to specify the object storage URL, bucket name, user name, password, and encryption key for each communication type.
You do not need to set up head-end systems (HES), which are external systems that communicate with smart meters and devices. Head-end systems are configured in Oracle Utilities Smart Grid Gateway, not in Oracle Utilities Meter Data Management.

NEW QUESTION # 29
Which THREE statements are true about the Subtractive Interval Data functionality?

• A. It converts engineering units into reads.
• B. A new reading condition field ensures that you do not lose the reading quality when a meter's consumption is estimated.
• C. The IMD load processes calculate consumption in engineering units.
• D. You can optionally validate for rollover exceptions and negative consumption calculations.
• E. It validates consumption in initial measurement data (IMD).

Answer: B,C,D

Explanation:
Explanation
The Subtractive Interval Data functionality is a feature that enables Meter Data Management (MDM) to process interval data from devices that do not provide interval readings, but only cumulative readings. The Subtractive Interval Data functionality performs the following actions:
* The IMD load processes calculate consumption in engineering units: The IMD load processes are batch processes that load initial measurement data (IMD) records from smart meter systems or other sources into MDM. The IMD load processes calculate consumption in engineering units by subtracting consecutive cumulative readings and applying conversion factors.
* A new reading condition field ensures that you do not lose the reading quality when a meter's consumption is estimated: A reading condition field is an attribute that indicates the quality or status of a measurement, such as valid, invalid, estimated, or substituted. A new reading condition field called Original Reading Condition is added to store the original reading condition of a cumulative reading when its consumption is estimated by using VEE rules.
* You can optionally validate for rollover exceptions and negative consumption calculations: You can configure VEE rules to check for rollover exceptions and negative consumption calculations when processing subtractive interval data. A rollover exception occurs when a cumulative reading reaches its maximum value and resets to zero. A negative consumption calculation occurs when a cumulative reading decreases instead of increasing.
It is not true that it validates consumption in initial measurement data (IMD), which are records that store the raw measurement data that is received from smart meter systems or other sources. Subtractive Interval Data functionality does not validate consumption in IMD, but calculates consumption from cumulative readings.
It is not true that it converts engineering units into reads, which are values that are recorded by devices at certain intervals or events. Subtractive Interval Data functionality does not convert engineering units into reads, but calculates consumption in engineering units from cumulative readings.

NEW QUESTION # 30
Which step should you perform to configure commands in a SaaS environment?

• A. Configure outbound and inbound communications (Request/Response model).
• B. Configure File Storage Configuration (Fl-RleStorage) extendable lookup.
• C. Create Object Storage locations (or buckets).
• D. Create key rings and key pairs.
• E. Configure the following processing methods: Unit of Measure (UOM) Translation, Initial Measurement Creation, and Device Event Mapping.

Answer: C

Explanation:
Explanation
In a SaaS environment, Oracle Utilities Meter Data Management and Smart Grid Gateway are deployed on Oracle Cloud Infrastructure (OCI) and use OCI Object Storage to store files and data. OCI Object Storage is a scalable and secure service that allows users to store and access data from anywhere using REST APIs or web consoles. According to the Oracle Utilities Smart Grid Gateway User Guide, one step that should be performed to configure commands in a SaaS environment is:
* Create Object Storage locations (or buckets). These are containers that store files and data in OCI Object Storage. Object Storage locations can be used to store command requests and responses between Oracle Utilities Meter Data Management and Smart Grid Gateway.
References: Oracle Utilities Smart Grid Gateway User Guide, Chapter 4: Commands, Section 4.4: Command Configuration

NEW QUESTION # 31
Which TWO functions can the service point-measurement cycle relationship of Meter Data Management (MDM) perform?

• A. Initiate push of bill determinants ta subscribing systems.
• B. Create hand-held download read activities.
• C. Initiate request of bill determinants from subscribing systems.
• D. Create optimal meter reader routes by measurement cycle.

Answer: A,C

Explanation:
Explanation
The service point-measurement cycle relationship of Meter Data Management (MDM) can perform the following functions:
* Initiate request of bill determinants from subscribing systems: A subscribing system is an external system or service provider that receives bill determinants from MDM. A bill determinant is a value that is used to calculate a bill for a service point or device. The service point-measurement cycle relationship can initiate a request of bill determinants from subscribing systems based on the measurement cycle schedule. A measurement cycle schedule defines the dates on which devices are scheduled to be read for a given measurement cycle. A measurement cycle defines the schedule for manual meter reading of devices at service points in that cycle.
* Initiate push of bill determinants to subscribing systems: The service point-measurement cycle relationship can also initiate a push of bill determinants to subscribing systems based on the measurement cycle schedule. This means that MDM can send bill determinants to subscribing systems automatically or on demand.
The service point-measurement cycle relationship cannot perform the following functions:
* Create optimal meter reader routes by measurement cycle: A meter reader route is a sequence of service points or devices that are assigned to a meter reader formanual meter reading. A meter reader route is not created by the service point-measurement cycle relationship, but by using other configurations, such as route type or route sequence.
* Create hand-held download read activities: A hand-held download read activity is an activity that downloads measurement data from a hand-held device to MDM. A hand-held download read activity is not created by the service point-measurement cycle relationship, but by using other configurations, such as activity type or activity status.

NEW QUESTION # 32
A new fast food restaurant is being installed at the center of a university. The restaurant will be metered, but its usage will also be included in the university's master meter.
What should you do to bill the university correctly?

• A. Configure the restaurant's service point on the university's usage subscription to exclude the restaurant's usage.
• B. Set up a virtual meter to exclude the restaurant's usage from the master meter.
• C. Exclude the restaurant's usage from customer information system (CIS).
• D. Use derivation algorithms to exclude the restaurant's usage from the master meter.

Answer: D

Explanation:
Explanation
A virtual meter is a meter that does not physically exist but is used to represent the usage of a group of meters or a portion of a meter. A virtual meter can be used to perform various calculations or adjustments on usage data, such as aggregation, derivation, allocation, or net metering. According to the Oracle Utilities Meter Data Management Business User Guide, to bill the university correctly for a new fast food restaurant that is being installed at the center of the university and whose usage will also be included in the university's master meter, the correct step is:
* Use derivation algorithms to exclude the restaurant's usage from the master meter. This can be done by creating a virtual meter that represents the master meter minus the restaurant's meter and applying a derivation algorithm that subtracts the restaurant's usage from the master meter's usage. The virtual meter's usage can then be used for billing the university.
References: Oracle Utilities Meter Data Management Business User Guide, Chapter 3: Asset Management, Section 3.4: Virtual Meters

NEW QUESTION # 33
How do you configure the derived values that are relevant for a device?

• A. Configure the derived values on the measuring component for the measuring components to be defined on the device.
• B. Configure the derived values on the measuring component type for the measuring components to be defined on the device.
• C. Configure the derived values on the device type for the derived values to be defined on the device.
• D. Configure the derived values an the final measurement type for the measuring components to be defined on the device.

Answer: B

Explanation:
Explanation
To configure the derived values that are relevant for a device, you should configure them on the measuring component type for the measuring components to be defined on the device. A measuring component type defines the type of measurement that a device can record, such as scalar, interval, or event. A measuring component type can also define the derived values that are calculated from raw measurements based on certain rules or factors. A measuring component is an instance of a measuring component type that is associated with a device.
You do not need to configure the derived values on the final measurement type, which defines how measurements are stored and processed in Oracle Utilities Meter Data Management. Final measurement types do not define derived values.
You do not need to configure the derived values on the device type, which defines the physical characteristics and attributes of a device, such as manufacturer, model, or serial number. Device types do not define derived values.
You do not need to configure the derived values on the measuring component, which is an instance of a measuring component type that is associated with a device. Measuring components inherit derived values from their measuring component types.

NEW QUESTION # 34
The client has installed scalar devices to measure the solar energy generated (export) and the energy received (import) from the market. This data is stored in separate measuring components (registers). The validation rules are generally the same for both measuring components, but there is one exception: the negative consumption check applies only to energy received (import).
Which TWO configurations ensure that the negative consumption rule is checked for energy received (import) only?

• A. Use eligibility criteria.
• B. Create two different VEE groups.
• C. Remove the negative consumption check from the VEE group.
• D. Modify the base VEE rule.
• E. Use the Skip flag in the Validation, Estimation, and Editing (VEE) rule.

Answer: A,E

Explanation:
Explanation
The client has installed scalar devices to measure the solar energy generated (export) and the energy received (import) from the market. This data is stored in separate measuring components (registers). The validation rules are generally the same for both measuring components, but there is one exception: the negative consumption check applies only to energy received (import). According to the Oracle Utilities Meter Data Management Business User Guide, two configurations that ensure that the negative consumption check is checked for energy received (import) only are:
* Use eligibility criteria: These are rules that determine whether a VEE rule should be applied or not based on certain conditions or characteristics. Eligibility criteria can be used to apply the negative consumption check only to the measuring component that has a characteristic value indicating energy received (import).
* Use the Skip flag in the VEE rule: This is a flag that indicates whether a VEE rule should be skipped or not based on certain conditions or characteristics. The Skip flag can be used to skip the negative consumption check for the measuring component that has a characteristic value indicating energy
* generated (export).
References: Oracle Utilities Meter Data Management Business User Guide, Chapter 8: Usage, Section 8.3:
Validation, Estimation, and Editing

NEW QUESTION # 35
Usage transactions can contain date breaks. What is used to supply date breaks?

• A. Usage subscription type
• B. Deferred monitor calculation algorithm
• C. Requesting system or user input
• D. Usage subscription BO

Answer: C

Explanation:
Explanation
Usage transactions can contain date breaks, which are dates that divide a usage period into sub-periods based on certain criteria or events. Date breaks are used to supply datebreaks for usage transactions. Date breaks are specified by the requesting system or user input when requesting a usage transaction. A requesting system is an external system or service provider that requests bill determinants from MDM. A user input is a manual entry of data by a user.
Usage subscription BO is not used to supply date breaks for usage transactions. A usage subscription BO is a business object that defines the relationship between a service point and a subscribing system.
Usage subscription type is not used to supply date breaks for usage transactions. A usage subscription type is a configuration that defines the properties and rules for a usage subscription.
Deferred monitor calculation algorithm is not used to supply date breaks for usage transactions. A deferred monitor calculation algorithm is a custom logic that can be developed by using Groovy scripting language or Java programming language. A deferred monitor calculation algorithm is used to perform certain calculations or validations on usage transactions after they are created.

NEW QUESTION # 36
Which THREE are best practices for measurement retention?

• A. Keep initial measurement data (IMD) for the same period of time as final measurements for cancel rebill purposes.
• B. Keep scalar measurements in the customer read tables to stay consistent.
• C. Derive time-of-use (TOU) values with interval data to prevent storing extra data.
• D. Derive demand from interval data to prevent storing extra data.
• E. Use Information Lifecycle Management (ILM) processes to help archive data.

Answer: C,D,E

Explanation:
Explanation
Some of the best practices for measurement retention are:
* Derive time-of-use (TOU) values with interval data to prevent storing extra data: Time-of-use (TOU) values are scalar values that are calculated from interval data based on different TOU periods. Interval data is measurement data that is recorded at regular intervals, such as every 15 minutes or every hour.
To prevent storing extra data, you can derive TOU values with interval data instead of storing them separately.
* Derive demand from interval data to prevent storing extra data: Demand is a value that indicates the maximum power or load that is consumed or generated during a certain period. Demand can be calculated from interval data by using certain methods, such as block demand or rolling demand. To prevent storing extra data, you can derive demand from interval data instead of storing them separately.
* Use Information Lifecycle Management (ILM) processes to help archive data: Information Lifecycle Management (ILM) processes are features that enable MDM to manage the lifecycle of measurement data based on certain policies or rules. ILM processes can help archive data that is no longer needed or used by moving them to different storage tiers or deleting them.
You do not need to keep scalar measurements in the customer read tables to stay consistent, which are tables that store measurement data that is entered by customers or meter readers. Scalar measurements are measurement data that are recorded at certain events, such as billing cycle end or meter exchange. You can store scalar measurements in different tables based on their source or status.
You do not need to keep initial measurement data (IMD) for the same period of time as final measurements for cancel rebill purposes, which are records that store the raw measurement data that is received from smart meter systems or other sources. Final measurements are records that store the measurement data that has been validated, edited, and estimated. You can keep IMD for a shorter period of time than final measurements based on your business needs or requirements.

NEW QUESTION # 37
Assets and components can have specifications associated with them to describe design details and asset attributes.
Which THREE are correct Smart Meter specifications?

• A. Asset disposition
• B. Manufacturer
• C. Firmware
• D. Asset age
• E. Asset type

Answer: B,C,E

Explanation:
Explanation
Asset and component specifications are used to describe design details and asset attributes that are common to a group of assets or components. According to the Oracle Utilities Meter Solution Cloud Service Business User Guide, some examples of smart meter specifications are:
* Firmware: The software version installed on the smart meter
* Asset type: The category of the smart meter, such as electric, gas, water, or heat
* Manufacturer: The company that produced the smart meter
References: Oracle Utilities Meter Solution Cloud Service Business User Guide, Chapter 3: Asset Management, Section 3.2: Asset and Component Specifications

NEW QUESTION # 38
Devices are often added to Meter Data Management (MDM) via a synchronization process. Device configuration business objects (BOs) can be configured to use Synchronization Add BO to determine the appropriate BO for the new device.
What is Synchronization Add BO associated with?

• A. Lifecycle algorithm on Dl-Device Configuration BO
• B. Validation algorithm on Dl-Device Configuration BO
• C. Business service associated with Dl-Device Configuration BO
• D. Options on Dl-Device Configuration BO

Answer: A

Explanation:
Explanation
Synchronization Add BO is associated with the lifecycle algorithm on Dl-Device Configuration BO. A lifecycle algorithm is a custom logic that can be developed by using Groovy scripting language or Java programming language. A lifecycle algorithm is used to perform certain actions or validations when a business object is created, updated, or deleted. Synchronization Add BO is a parameter that can be configured on the lifecycle algorithm on Dl-Device Configuration BO. Synchronization Add BO is used to determine the appropriate business object for creating a new device based on certain criteria, such as device type or device configuration type.
Synchronization Add BO is not associated with the business service associated with Dl-Device Configuration BO, which is a component that provides the functionality and logic for processing data related to device configuration. Synchronization Add BO is not associated with the options on Dl-Device Configuration BO, which are configurable values that can be used to define business rules or relationships for device configuration. Synchronization Add BO is not associated with the validation algorithm on Dl-Device Configuration BO, which is a custom logic that can be developed by using Groovy scripting language or Java programming language. A validation algorithm is used to perform certain checks or validations on the data entered for device configuration.

NEW QUESTION # 39
In the SaaS solution, how should you configure equipment that attaches to an asset, such as a communication module attached to a meter?

• A. Add a sub-asset
• B. Create a master child asset
• C. Set up a component
• D. Add a constituent part

Answer: C

Explanation:
Explanation
To configure equipment that attaches to an asset, such as a communication module attached to a meter, you should set up a component. A component is a part of an asset that can be installed and removed independently of the asset. You can define component types and associate them with asset types. For example, you can define a communication module component type and associate it with a meter asset type2.
You do not need to create a master child asset, which is a relationship between two assets that are installed at different service points but are functionally related. For example, you can define a transformer as a master asset and a meter as a child asset2. A master child asset is not suitable for equipment that attaches to an asset.
You do not need to add a sub-asset, which is an asset that is installed at the same service point as another asset but has its own measuring components and usage subscriptions. For example, you can define a meter as a sub-asset of another meter if they share the same service point but have different measurements2. A sub-asset is not suitable for equipment that attaches to an asset.
You do not need to add a constituent part, which is an attribute of an asset that cannot be installed or removed independently of the asset. For example, you can define a battery as a constituent part of a meter if it is embedded in the meter and cannot be replaced . A constituent part is not suitable for equipment that attaches to an asset.

NEW QUESTION # 40
You want to manage additional Landis + Gyr device events that are not covered by the set of standard device event types provided with Smart Grid Gateway (SGG).
Apart from creating the new device event type "admin data", what else should you do to represent the new standard device events that you want to manage?

• A. Create a set of admin data to represent the Landis + Gyr specific device event types, ensuring that for each new device event type, the name of the corresponding standard device event business object is configured in the "Standard Device Event BO Map" characteristic.
• B. Set up service providers for each new device event that you want to manage, and specify on each service provider the standard device evert to which it maps.
• C. Add a record into the External Device Event Mapping table (Dl-E>ODVCEVNTMAP) for each new device event that you want to manage, specifying the standard device event to which it maps.
• D. Extend the Landis + Gyr device event mapping extendable lookup such that it maps each of the Landis
  -f- Gyr specific device event names to the new standard device event names.

Answer: D

Explanation:
Explanation
Smart Grid Gateway (SGG) is a product that provides integration between Oracle Utilities Meter Data Management and various head-end systems that communicate with smart meters. SGG supports different types of device events that are sent by smart meters to indicate various conditions or situations, such as outages, tampering, or alarms. SGG provides a set of standard device event types that cover common scenarios across different head-end systems and vendors. However, some head-end systems may have vendor-specific device event types that are not covered by the standard device event types. In order to manage these additional device events, SGG allows users to create new standard device event types and map them to the vendor-specific device event types. According to the Oracle Utilities Smart Grid Gateway User Guide, apart from creating the new standard device event type "admin data", the other step that should be done to represent the new standard device events is:
* Extend the Landis + Gyr device event mapping extendable lookup such that it maps each of the Landis + Gyr specific device event names to the new standard device event names. This will ensure that SGG can recognize and process the vendor-specific device events and map them to the corresponding standard device events.
References: Oracle Utilities Smart Grid Gateway User Guide, Chapter 5: Device Events, Section 5.2: Device Event Types; Section 5.3: Device Event Mapping

NEW QUESTION # 41
When used with the SaaS Cloud services, the Oracle Smart Grid Gateway (SGG) adapters process usage and device event payloads via batch processing. Files are sent from a head-end system (HES) to an Oracle Cloud Object Storage location, where they are batch processed.
Which THREE operations are performed by the SGG processes?

• A. Parse payload into individual usage readings/device events.
• B. Transform usage readings into standard (unified) format.
• C. Load reads into Object Storage.
• D. Invoke IMD/Device Event Seeder (as appropriate).
• E. Load reads into a file directory.

Answer: A,B,D

Explanation:
Explanation
In a SaaS environment, Oracle Utilities Meter Data Management and Smart Grid Gateway are deployed on Oracle Cloud Infrastructure (OCI) and use OCI Object Storage to store files and data. OCI Object Storage is a scalable and secure service that allows users to store and access data from anywhere using REST APIs or web consoles. Smart Grid Gateway adapters process usage and device event payloads via batch processing. Files are sent from a head-end system (HES) to an OCI Object Storage location, where they are batch processed.
According to the Oracle Utilities Smart Grid Gateway User Guide, some operations that are performed by the Smart Grid Gateway processes are:
* Parse payload into individual usage readings/device events. This is an operation that extracts usage readings or device events from the payload file and converts them into individual records.
* Invoke IMD/Device Event Seeder (as appropriate). This is an operation that invokes a web service that sends usage readings or device events to Oracle Utilities Meter Data Management for further processing.
* Transform usage readings into standard (unified) format. This is an operation that converts usage readings from vendor-specific formats into a standard format that can be processed by Oracle Utilities Meter Data Management.
References: Oracle Utilities Smart Grid Gateway User Guide, Chapter 4: Commands, Section 4.4: Command Configuration; Chapter 5: Device Events; Chapter 6: Usage

NEW QUESTION # 42
Your client wants to generate bill determinants for the billing system by using a time-of-use (TOU) group for
"on peak", "off peak", and "shoulder." They also want to have holiday consumption categorized as "off peak" regardless of the day on which it falls.
What is the correct configuration for this?

• A. Edit the TOU map template to include the Holiday TOU as "off peak".
• B. Add the work calendar to the TOU map template and set the Holiday TOU as "on peak", "off peak", or
  "shoulder" depending on the calendar day.
• C. Add the work calendar ta the TOU map template.
• D. Add the work calendar to the TOU map template and set the Holiday TOU as "off peak".
• E. Add the work calendar to the TOU map template and set the Holiday TOU as "on peak".

Answer: D

Explanation:
Explanation
A time-of-use (TOU) group is a set of TOU maps that define how usage is divided into different TOU periods for different days of the week and seasons of the year. A TOU group can have a work calendar associated with it to define holidays and other special days that may have different TOU periods than regular days. According to the Oracle Utilities Meter Solution Cloud Service Business User Guide, to configure a TOU group for"on peak", "off peak", and "shoulder" periods and have holiday consumption categorized as "off peak" regardless of the day on which it falls, the correct steps are:
* Add the work calendar to the TOU map template and set the Holiday TOU as "off peak". This will ensure that any day marked as a holiday in the work calendar will have its usage assigned to the "off peak" period.
* Create a TOU map for each season using the TOU map template and define the start and end times for each TOU period ("on peak", "off peak", and "shoulder") for each day of the week.
* Create a TOU group and add the TOU maps for each season to it.
References: Oracle Utilities Meter Solution Cloud Service Business User Guide, Chapter 4: Time-of-Use Data Management, Section 4.2: Time-of-Use Maps; Section 4.3: Time-of-Use Groups

NEW QUESTION # 43
If a project is setting up meter commands with a head-end system (HES), which TWO components should you configure to support the inbound responses from HES?

• A. Message sender
• B. Inbound web services
• C. Outbound message type
• D. Master configurations

Answer: A,B

Explanation:
Explanation
Smart Grid Gateway (SGG) is a product that provides integration between Oracle Utilities Meter Data Management and various head-end systems that communicate with smart meters. SGG supports inbound and outbound communication between the two systems using web services and message queues. According to the Oracle Utilities Smart Grid Gateway User Guide, if a project is setting up meter commands with a head-end system (HES), two components that should be configured to support the inbound responses from HES are:
* Inbound web services: These are web services that are exposed by SGG to receive messages from HES.
Inbound web services can be used to receive responses from HES for commands that were sent by SGG or other systems.
* Message sender: This is a component that sends messages from SGG to other systems using message queues. Message sender can be used to send responses from HES to Oracle Utilities Meter Data Management or other systems.
References: Oracle Utilities Smart Grid Gateway User Guide, Chapter 2: Architecture Overview; Chapter 3:
Communication; Chapter 4: Commands

NEW QUESTION # 44
......

Oracle 1z0-1091-22 exam is targeted at professionals who have experience in implementing and configuring Oracle Utilities Meter Solution Cloud Service 2022. 1z0-1091-22 exam measures the candidate's understanding of the key concepts, features, and functions of the Oracle Utilities Meter Solution Cloud Service 2022. 1z0-1091-22 exam also tests the candidate's knowledge of the various deployment models, security features, and integration capabilities of the Oracle Utilities Meter Solution Cloud Service 2022.

 

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