9+ Best iOS Hearing Aids: Ultimate Guide

Digital auditory assistance devices that are compatible with Apple’s mobile operating system offer personalized sound amplification. These devices connect wirelessly to iPhones, iPads, and iPod Touch devices, allowing users to control settings and stream audio directly. As an example, a person with hearing loss can adjust the volume and equalization of their hearing aids through an app on their iPhone.

The integration of these auditory devices with a mobile operating system offers several advantages. Direct audio streaming improves clarity for phone calls, music, and other media. The ability to customize settings provides a more personalized listening experience. Moreover, the historical development of these devices reflects the increasing accessibility and sophistication of hearing aid technology, enabling greater control and discretion for the user.

The following sections will explore specific features, compatibility considerations, and future trends in the development of mobile operating system-compatible auditory solutions, offering a detailed overview of their capabilities and implications for users.

1. Direct Audio Streaming and Auditory Assistance Devices

Direct audio streaming constitutes a critical functionality in modern digital auditory assistance devices compatible with Apple’s mobile operating system. This feature enables a seamless and direct transfer of audio signals from an iPhone, iPad, or iPod Touch to the hearing aid device without the need for intermediary accessories. The primary effect of this direct connection is enhanced clarity and reduced ambient noise interference during phone calls, music listening, and other audio-based activities. The importance of direct streaming lies in its ability to improve the signal-to-noise ratio, thereby allowing individuals with hearing loss to perceive auditory information more effectively.

A practical example illustrates this benefit. Consider a user in a noisy environment attempting to have a phone conversation. Without direct audio streaming, background noise can overwhelm the auditory signal, making it difficult to understand the speaker. With direct streaming, the auditory assistance device receives the phone call audio directly from the iPhone, bypassing external microphones and filtering ambient noise. This results in a clearer and more intelligible communication experience. Furthermore, some direct streaming implementations also allow for binaural streaming, where audio is delivered to both hearing aids simultaneously, improving spatial awareness and localization of sound sources.

In summary, direct audio streaming is a vital component that significantly enhances the functionality and user experience of digital auditory assistance devices designed for Apple’s ecosystem. It addresses challenges related to noise interference and signal clarity, providing a more accessible and personalized listening experience for individuals with hearing loss. The ongoing development and refinement of direct streaming technologies will continue to improve the effectiveness of these auditory solutions and their integration with modern mobile devices.

2. Personalized Sound Control

Personalized sound control represents a core feature of digital auditory assistance devices designed for compatibility with Apple’s iOS operating system. This functionality allows users to tailor auditory amplification and processing to address their specific hearing loss profile, thereby optimizing the listening experience in diverse acoustic environments. The sophistication of these controls directly impacts the utility and effectiveness of the devices.

Frequency-Specific Adjustments

This facet permits users to modify the amplification levels across various frequency bands. For example, an individual with high-frequency hearing loss can increase the gain in those ranges to enhance the audibility of speech sounds like ‘s’ and ‘th’. This granular control is crucial as hearing loss often varies significantly across different frequencies.
Environmental Profiles

Many iOS-compatible hearing aids offer pre-set or customizable environmental profiles that automatically adjust settings based on the acoustic surroundings. A “restaurant” profile might reduce background noise and enhance speech intelligibility, while a “music” profile might optimize frequency response for musical enjoyment. These profiles streamline adaptation to different listening situations.
Directional Microphones

Personalized sound control extends to managing directional microphone settings. Users can adjust the focus of the microphones to prioritize sounds coming from a specific direction, thereby reducing interference from sounds originating elsewhere. This is particularly useful in crowded environments where focusing on a specific speaker is essential.
Noise Reduction Algorithms

These algorithms mitigate the impact of background noise on speech understanding. Through iOS apps, users can adjust the intensity of noise reduction to strike a balance between minimizing unwanted sounds and preserving the naturalness of the auditory environment. The ability to fine-tune these parameters is critical for comfort and optimal performance.

The integration of personalized sound control features within iOS auditory assistance devices represents a significant advancement in hearing care. By empowering users to actively manage their auditory experience, these devices promote improved communication, enhanced listening comfort, and a greater sense of control over their hearing health. The ongoing refinement of these personalized controls will continue to drive innovation in the field of auditory rehabilitation.

3. Bluetooth Connectivity

Bluetooth connectivity represents a fundamental aspect of contemporary auditory assistance devices compatible with Apple’s iOS ecosystem. This wireless communication protocol enables seamless interaction between these devices and iPhones, iPads, and iPod Touch devices, facilitating a range of functionalities that enhance the user experience. The reliability and efficiency of Bluetooth technology are paramount for the effective operation of these auditory solutions.

Direct Audio Streaming via Bluetooth

Bluetooth facilitates direct streaming of audio from iOS devices to the auditory assistance devices. This includes phone calls, music, podcasts, and other media content. The implementation of Bluetooth Low Energy (BLE) protocols minimizes battery consumption in both the iOS device and the hearing aid, optimizing power efficiency without compromising audio quality. For example, a user can listen to a phone conversation directly through their hearing aids, effectively mitigating background noise and improving speech intelligibility. The use of the ASHA (Audio Streaming for Hearing Aids) protocol, a Bluetooth LE based connection protocol developed by Google, ensures optimal streaming.
Remote Control and Customization

Bluetooth connectivity empowers users to control and customize their auditory assistance devices through dedicated iOS applications. Volume adjustments, program selection, environmental profile switching, and fine-tuning of sound parameters are all accessible via the application interface. For instance, a user might remotely adjust the volume of their hearing aids discreetly during a meeting using their iPhone. The bidirectional communication enabled by Bluetooth allows the iOS device to receive status updates from the hearing aids, such as battery levels and program settings.
Location-Based Services and Geotagging

Some advanced iOS auditory assistance devices leverage Bluetooth in conjunction with location-based services. This allows the devices to automatically switch to pre-configured environmental profiles based on the user’s location. For example, a hearing aid could automatically switch to a “home” profile when the user enters their residence. Geotagging functionality can also assist in locating lost or misplaced hearing aids by recording the last known location of the device when it was connected to the iOS device via Bluetooth.
Firmware Updates and Device Management

Bluetooth facilitates over-the-air (OTA) firmware updates for auditory assistance devices. These updates can address software bugs, improve performance, and introduce new features to the devices. Users can initiate firmware updates through the iOS application, eliminating the need for physical connections or visits to an audiologist. Bluetooth also enables comprehensive device management, including pairing, unpairing, and configuration settings that can be easily managed through the iOS interface.

In summation, Bluetooth connectivity is integral to the functionality and usability of iOS-compatible auditory assistance devices. It provides a robust and versatile platform for direct audio streaming, remote control, location-based services, and firmware updates, thereby enhancing the overall auditory experience for users. The ongoing development of Bluetooth technology will continue to drive innovation in the field of auditory rehabilitation and further integrate these devices into the connected ecosystem.

4. App Customization

App customization is a critical element in the modern functionality of digital auditory assistance devices compatible with the iOS operating system. These applications provide a user interface for managing and personalizing the performance of the hearing aids, thereby enhancing the overall user experience and accommodating individual hearing needs.

Volume and Program Control

iOS applications provide a direct means for adjusting the volume levels of the hearing aids, allowing users to adapt to varying auditory environments. Furthermore, these apps facilitate the selection of pre-programmed settings tailored to specific listening situations, such as restaurants, meetings, or outdoor settings. This granular control ensures optimal auditory performance in diverse environments, contributing to improved speech intelligibility and overall comfort.
Equalization and Frequency Shaping

Advanced applications enable users to modify the equalization settings of their hearing aids, adjusting the amplification levels across different frequency bands. This customization is particularly valuable for individuals with complex hearing loss profiles, enabling them to fine-tune the auditory output to match their specific needs. For instance, users can increase amplification in high-frequency ranges to enhance the clarity of speech sounds. Real-world application might involve adjusting these settings based on an audiogram or a professional recommendation.
Noise Management and Directionality

iOS applications offer controls for managing noise reduction algorithms and microphone directionality within the hearing aids. Users can adjust the intensity of noise reduction to minimize background noise interference or modify the focus of the microphones to prioritize sounds from a specific direction. This adaptability is crucial for enhancing speech understanding in noisy environments or focusing on specific speakers in crowded settings.
Remote Support and Tele-Audiology

Certain iOS applications facilitate remote support and tele-audiology services, allowing users to connect with audiologists or hearing care professionals for adjustments, troubleshooting, and counseling. This feature reduces the need for in-person visits, enhancing accessibility and convenience. For example, an audiologist can remotely fine-tune the settings of a user’s hearing aids based on feedback provided through the application, optimizing performance without requiring a physical appointment.

The integration of app customization represents a significant advancement in the field of digital auditory assistance devices. By providing users with intuitive interfaces and comprehensive controls, these applications empower individuals to actively manage their auditory experience, ultimately improving communication, comfort, and overall quality of life. The ongoing refinement of these applications will continue to drive innovation and further personalize hearing care solutions.

5. Device Compatibility

Device compatibility is a foundational element in the utility and efficacy of auditory assistance devices designed for integration with Apple’s iOS operating system. The ability of these devices to seamlessly connect and interact with iPhones, iPads, and iPod Touch devices directly influences the accessibility and functionality available to the user. A lack of compatibility can render advanced features, such as direct audio streaming and app-based control, inoperable. For example, an auditory assistance device lacking the necessary Bluetooth protocols or iOS certification cannot establish a connection with an iPhone, thereby negating its ability to transmit phone calls or music directly to the user’s ear.

The implementation of Made for iPhone (MFi) hearing aid technology exemplifies the importance of device compatibility. MFi-certified devices undergo rigorous testing to ensure seamless integration with iOS devices. This certification guarantees reliable Bluetooth connectivity, optimal power efficiency, and consistent performance. Moreover, MFi hearing aids typically offer advanced features, such as binaural streaming and personalized sound profiles, accessible through dedicated iOS applications. Conversely, non-MFi hearing aids may exhibit connectivity issues, limited functionality, and reduced battery life when used with iOS devices. A practical illustration of this distinction is observed when comparing two users, one utilizing an MFi-certified device and the other a non-certified device, in a crowded environment. The MFi user can discreetly adjust the volume and noise reduction settings through their iPhone, while the non-MFi user may struggle with unreliable connectivity and limited control options.

In conclusion, device compatibility is not merely a technical specification but a critical determinant of the user experience and the overall effectiveness of auditory assistance devices designed for iOS integration. The adoption of MFi-certified devices ensures reliable connectivity, optimal performance, and access to advanced features, while the lack of compatibility can severely limit the functionality and usability of these solutions. Consequently, device compatibility represents a primary consideration in the selection and utilization of iOS-compatible auditory assistance devices, directly impacting the user’s ability to manage their hearing health effectively.

6. Battery Management

Efficient power utilization is critical for digital auditory assistance devices compatible with Apple’s iOS operating system. Battery management directly affects device uptime, user convenience, and the overall effectiveness of these solutions. The integration of wireless technologies and signal processing algorithms necessitates careful optimization of energy consumption.

Battery Chemistry and Capacity

The type of battery employed in digital auditory devices, typically zinc-air or rechargeable lithium-ion, significantly impacts performance characteristics. Zinc-air batteries offer high energy density but are single-use, requiring frequent replacements. Rechargeable lithium-ion batteries provide convenience through repeated use but may degrade over time, reducing their capacity. Selecting the appropriate battery chemistry involves balancing user needs with device design constraints. An example includes selecting lithium-ion for a device marketed toward users seeking environmental responsibility and convenience.
Bluetooth Low Energy (BLE) Optimization

The utilization of Bluetooth connectivity, essential for direct audio streaming and remote control via iOS devices, introduces energy consumption demands. Optimizing Bluetooth Low Energy (BLE) protocols is paramount for minimizing battery drain. Advanced implementations involve intermittent data transmission, efficient connection management, and reduced transmission power when possible. If the auditory device constantly searches for a Bluetooth connection even when paired, it would drastically reduce battery life compared to a BLE-optimized device that only connects when needed.
Power Management Algorithms

Sophisticated power management algorithms dynamically adjust processing power based on real-time auditory demands. When the environment is quiet, the device reduces amplification and signal processing, conserving energy. In noisy environments, processing intensity increases, resulting in greater power consumption. These algorithms adapt to varying auditory landscapes, balancing performance with battery longevity. For example, some algorithms prioritize speech clarity in loud environments, leading to higher power usage, while others emphasize energy conservation in calm settings.
User Customization and Settings

iOS applications empower users to customize device settings that directly impact battery life. Reducing streaming duration, lowering volume levels, and deactivating unnecessary features can extend device uptime. Providing users with transparent information about energy consumption allows for informed decision-making. A user who is aware that frequent streaming significantly reduces battery life might choose to limit streaming during critical periods to ensure the device remains operational throughout the day.

The facets of battery management detailed above are intrinsically linked to the user experience with iOS-compatible digital auditory assistance devices. Effective power utilization not only prolongs the operational life of the device but also contributes to greater user satisfaction and improved overall hearing health management.

7. Accessibility Features

Accessibility features are integral components of auditory assistance devices compatible with Apple’s iOS. These features aim to enhance usability for individuals with diverse needs, including those with visual impairments, motor skill limitations, or cognitive challenges. The inclusion of such features is not merely an optional add-on but a fundamental aspect of ensuring equitable access to auditory enhancement technology. The cause-and-effect relationship is straightforward: the presence of robust accessibility features directly results in a more inclusive and user-friendly experience for a wider range of individuals. For example, VoiceOver, an iOS screen reader, can be utilized to navigate the control app for an auditory assistance device, enabling users with visual impairments to adjust settings and monitor battery levels independently. The absence of VoiceOver compatibility would effectively exclude these individuals from fully utilizing the device’s capabilities.

Further consideration reveals the practical significance of haptic feedback and customizable display settings. Haptic feedback provides tactile confirmation of actions performed within the control app, assisting users with motor skill limitations or visual impairments. Customizable display settings, such as adjustable text size and color contrast, can improve readability for individuals with low vision or cognitive processing differences. Moreover, the integration of switch control functionality allows individuals with severe motor impairments to operate the auditory assistance device using external switches or adaptive devices. These features are not mere conveniences; they are essential tools that empower users to manage their hearing health effectively and independently. A tangible example is a user with limited dexterity who relies on switch control to adjust volume settings, thereby maintaining control over their auditory environment without requiring fine motor skills.

In summary, accessibility features are not peripheral enhancements but foundational elements of auditory assistance devices within the iOS ecosystem. Their inclusion is paramount for ensuring equitable access and promoting independent management of hearing health for a diverse range of users. The ongoing development and refinement of these features represent a critical area of innovation, addressing existing challenges and fostering a more inclusive and accessible technological landscape. The focus should be on continued improvement, ensuring all individuals, regardless of ability, can fully benefit from advancements in auditory assistance technology.

8. Remote Adjustments

Remote adjustments constitute a significant advancement in the functionality of auditory assistance devices designed for compatibility with Apple’s iOS operating system. This capability allows audiologists and hearing care professionals to remotely fine-tune the settings of a user’s hearing aids without requiring physical appointments, enhancing accessibility and convenience. The integration of remote adjustment features directly impacts the user experience and the efficiency of hearing healthcare delivery.

Tele-Audiology and Remote Programming

Tele-audiology platforms facilitate remote programming of auditory assistance devices via secure internet connections. Audiologists can access a user’s device remotely, review audiometric data, and adjust parameters such as gain, compression, and noise reduction settings. This remote programming capability enables timely adjustments based on user feedback and changing listening environments. For example, a user experiencing difficulty understanding speech in noisy restaurants can request a remote adjustment to optimize noise reduction settings without scheduling an in-office visit. This reduces travel time and enhances accessibility for individuals in remote areas or with mobility limitations.
Real-Time Feedback and Fine-Tuning

Remote adjustment features often incorporate real-time feedback mechanisms, allowing users to provide immediate input to the audiologist during the adjustment process. This can include subjective ratings of sound quality, clarity, and comfort, as well as objective measures of speech recognition performance. This feedback loop enables audiologists to fine-tune settings iteratively, ensuring optimal performance and user satisfaction. Consider a scenario where a user reports that music sounds distorted after a previous adjustment. The audiologist can remotely adjust equalization settings in real-time, soliciting feedback from the user until the sound quality is satisfactory.
Data Logging and Performance Monitoring

Many iOS-compatible auditory assistance devices incorporate data logging capabilities, recording information about device usage patterns, listening environments, and user settings. This data can be remotely accessed by audiologists to monitor device performance and identify potential issues. For example, if data logging reveals that a user consistently increases the volume in certain environments, the audiologist can proactively adjust the gain settings to address the underlying cause. This data-driven approach enables more personalized and effective hearing healthcare.
Software Updates and Feature Enhancements

Remote adjustment platforms can also facilitate the delivery of software updates and feature enhancements to auditory assistance devices. Audiologists can remotely install new firmware versions, update signal processing algorithms, and add new features to the device, ensuring that users have access to the latest advancements in hearing technology. This eliminates the need for users to physically return their devices to the manufacturer or audiologist for updates. For example, a new noise reduction algorithm could be deployed remotely, improving the device’s performance in challenging listening environments.

The multifaceted nature of remote adjustments underscores their significance in modern auditory healthcare. By leveraging iOS connectivity and tele-audiology platforms, these features enhance accessibility, improve the efficiency of care delivery, and empower users to actively participate in the management of their hearing health. As technology continues to evolve, remote adjustment capabilities will likely play an increasingly important role in optimizing the performance and usability of iOS-compatible auditory assistance devices.

9. Firmware Updates

Firmware updates represent a critical aspect of maintaining and enhancing the functionality of digital auditory assistance devices compatible with Apple’s iOS operating system. These updates, delivered electronically, address software bugs, improve performance, and introduce new features, ensuring the device remains current and optimized for the user’s evolving needs. The absence of regular firmware updates can lead to diminished performance, security vulnerabilities, and reduced compatibility with newer iOS devices.

Bug Fixes and Stability Improvements

Firmware updates often include fixes for software bugs that can affect the stability and reliability of the auditory assistance device. These bugs may manifest as unexpected crashes, connectivity issues, or inaccurate signal processing. Addressing these issues through firmware updates ensures consistent and dependable performance. As an example, an initial firmware version might exhibit intermittent Bluetooth disconnections. A subsequent update could rectify this issue, stabilizing the connection and preventing disruptions during audio streaming. If an hearing aid have this stability improvements , it will deliver what its expect from the brand and users.
Performance Enhancements and Algorithm Optimization

Firmware updates can optimize the performance of signal processing algorithms within the auditory assistance device. These algorithms are responsible for tasks such as noise reduction, speech enhancement, and feedback cancellation. Improvements to these algorithms can result in clearer sound quality, improved speech intelligibility, and reduced listening fatigue. Consider a situation where a device struggles to effectively suppress background noise in crowded environments. A firmware update could incorporate a more sophisticated noise reduction algorithm, significantly improving the user’s ability to understand speech in those situations. It provide what exactly its algorithm can perform and function.
New Feature Introductions and Functionality Expansion

Firmware updates provide a mechanism for introducing new features and expanding the functionality of auditory assistance devices. These features might include enhanced connectivity options, new environmental profiles, or advanced customization settings. For instance, a firmware update could add support for a new Bluetooth audio codec, improving the quality of streamed audio. Similarly, an update could introduce a new environmental profile optimized for outdoor activities, providing enhanced sound quality in windy conditions. The features it delivers are the newest and most advanced available.
Compatibility with Latest iOS Versions

Apple’s iOS operating system undergoes regular updates, introducing new features and security enhancements. Firmware updates for auditory assistance devices are often necessary to maintain compatibility with the latest iOS versions. These updates ensure that the device continues to function seamlessly with the user’s iPhone, iPad, or iPod Touch. Without these updates, the auditory assistance device may experience connectivity issues, reduced functionality, or complete incompatibility with the latest iOS devices. Compatibility ensures users can access their auditory device without problems.

The dependence on firmware updates underscores the evolving nature of auditory assistance technology within the iOS ecosystem. Manufacturers have delivered better version of their hearing aid technology. By regularly updating the firmware, users can ensure their devices remain optimized, secure, and compatible with the latest iOS features. It allows hearing aids user have what is expect from the brand.

Frequently Asked Questions About iOS Hearing Aid Compatibility

The following section addresses common inquiries regarding the functionality and integration of auditory assistance devices with Apple’s iOS operating system.

Question 1: What defines an “iOS hearing aid”?

The term refers to digital hearing aids specifically designed to connect wirelessly with Apple devices, such as iPhones, iPads, and iPod Touch devices. These devices leverage Bluetooth technology for direct audio streaming and control through dedicated iOS applications.

Question 2: Are all hearing aids compatible with iOS devices?

No. Compatibility is contingent upon the hearing aid incorporating specific Bluetooth protocols and certifications, such as Made for iPhone (MFi). Non-compatible hearing aids will lack the ability to connect directly with iOS devices.

Question 3: What benefits are derived from using iOS-compatible hearing aids?

Benefits include direct audio streaming for phone calls, music, and other media; personalized sound control through iOS applications; and the convenience of remote adjustments performed by hearing care professionals.

Question 4: How is the connection between an iOS device and a compatible hearing aid established?

The connection is typically established through the Bluetooth settings menu on the iOS device. The hearing aid must be placed in pairing mode, and the iOS device will then detect and pair with the hearing aid. Some devices may require downloading a dedicated application for initial setup.

Question 5: What type of control does an iOS application offer for a compatible hearing aid?

The application typically provides control over volume, program selection, environmental profiles, equalization settings, noise reduction algorithms, and microphone directionality. Certain applications also facilitate remote support and tele-audiology services.

Question 6: How are firmware updates applied to iOS-compatible hearing aids?

Firmware updates are typically delivered wirelessly through the dedicated iOS application. The application will notify the user of available updates and guide them through the installation process. Ensuring that the hearing aid firmware is current is crucial for maintaining optimal performance and compatibility.

The information provided herein aims to clarify the key aspects of iOS hearing aid compatibility and address common concerns. Understanding these functionalities is vital for individuals seeking to leverage the benefits of integrated auditory assistance technology.

The following sections will delve into the future trends and emerging technologies in the field of iOS-compatible hearing solutions.

Essential Considerations for iOS Hearing Aid Integration

Maximizing the benefits of digital auditory devices compatible with Apple’s mobile operating system necessitates careful attention to several key factors. These tips provide guidance for optimal device selection, usage, and maintenance.

Tip 1: Verify Device Compatibility Prior to Purchase: Rigorously confirm that the prospective auditory device is officially certified as “Made for iPhone” (MFi). This certification ensures seamless connectivity and feature integration with iOS devices. Absence of MFi certification may result in unreliable performance and limited functionality.

Tip 2: Regularly Update Device Firmware: Firmware updates address software bugs, optimize performance, and introduce new features. Adherence to update prompts within the device’s companion application is essential for maintaining optimal device functionality.

Tip 3: Optimize Bluetooth Connectivity: Maintaining a stable Bluetooth connection is crucial for direct audio streaming and remote control. Ensure the iOS device and auditory device are within optimal range and free from potential interference sources.

Tip 4: Customize Sound Profiles According to Environment: Utilize the device’s companion application to create and select appropriate sound profiles for various listening environments, such as restaurants, meetings, or outdoor settings. Tailoring sound profiles enhances speech intelligibility and reduces background noise interference.

Tip 5: Periodically Assess Battery Health: Monitor battery levels regularly and adhere to recommended charging protocols. Consider utilizing power-saving features, such as reduced streaming duration and lower volume levels, to extend battery life.

Tip 6: Consult with a Qualified Audiologist: Seek professional guidance from an audiologist or hearing care professional for personalized adjustments and fine-tuning of device settings. Remote adjustment capabilities may offer added convenience and accessibility.

Tip 7: Leverage Accessibility Features for Enhanced Usability: Explore and utilize accessibility features within the iOS operating system and device’s companion application to accommodate individual needs, such as visual impairments or motor skill limitations.

Adhering to these essential considerations maximizes the performance, longevity, and overall benefit derived from integrated digital auditory devices. These practices contribute to an enhanced auditory experience and improved quality of life.

The preceding information provides a practical foundation for optimizing the use of iOS hearing aid technology. Future sections will explore potential challenges and troubleshooting strategies.

Conclusion

This exploration has detailed the functionality, benefits, and key considerations surrounding iOS hearing aid technology. From direct audio streaming and personalized sound control to device compatibility and firmware updates, the integration of digital auditory assistance with Apple’s mobile operating system presents a multifaceted landscape. The information presented underscores the importance of informed decision-making in the selection, implementation, and maintenance of these devices.

Continued advancements in iOS hearing aid technology promise enhanced accessibility, personalized care, and improved quality of life for individuals with hearing loss. Further research and development, coupled with proactive engagement from hearing care professionals and end-users, are essential to realize the full potential of these innovative solutions. The ongoing pursuit of optimized device integration and user-centric design will pave the way for a more inclusive and connected future for all.